CN203035456U

CN203035456U - A lying cross-flow horizontal axis roof wind power generation device

Info

Publication number: CN203035456U
Application number: CN2012206904186U
Authority: CN
Inventors: 邓惠仪
Original assignee: Individual
Current assignee: Individual
Priority date: 2012-12-14
Filing date: 2012-12-14
Publication date: 2013-07-03
Anticipated expiration: 2022-12-14

Abstract

The utility model relates to a horizontal STREAMING horizontal axis roof wind power generation set lies, which comprises a frame, be equipped with in the frame the impeller and with the horizontal STREAMING horizontal axis generator of impeller looks coupling, the front end and the rear end of frame are equipped with collection wind pipe respectively, collection wind pipe by the outside shape that extends gradually of frame. The utility model discloses a horizontal flow formula horizontal axis roof wind power generation set of lying can simply install on various buildings such as the local-style dwelling houses, the rural house, mill and the warehouse on pitched roof or flat roof, utilizes the area on broad roof and collects the wind pipe formation and gather the wind district to multiplication wind speed and wind volume flow through the impeller and improve wind power generation efficiency, can promote wind power generation's popularization and popularization, help the utilization of the environmental protection energy, reduce global carbon and discharge.

Description

A kind of cross-flow type horizontal axis roof windpower generating apparatus that couches

Technical field

The utility model relates to wind generating unit, more particularly, relates to a kind of cross-flow type horizontal axis roof windpower generating apparatus that couches.

Background technique

Wind generating unit generally can be divided into two classes according to the modes of emplacement of blower fan axle: a class is horizontal axis wind-driven generator, and second class is vertical axis aerogenerator.Because vertical axis aerogenerator is in construction cost, daily operation, economic benefit with the many shortcomings aspect safeguarding, most commercial wind-force transmitting apparatus all belongs to horizontal axis wind-driven generator.Existing commercial wind generating unit adopts a plurality of large fans to form power generation system, and the electric energy that sends is transported to electrical network after integrated treatment.Along with development of technology, distributed generating electricity by way of merging two or more grid systems also becomes a kind of trend gradually, utilizes numerous small-scales unit that independently generates electricity also can network separately, extensively expands the universalness of wind-power electricity generation.

Existing wind-driven generator need be installed on high tower or the high bar, uses the longspan impeller, and construction cost is high, electric energy output less stable, and benefit is not high yet.Moreover blower fan can produce noise and vibrations when running, and this forces blower fan to need away from many restrictions such as buildings, and it is few that this is applied in the household field wind-power electricity generation.

The model utility content

The purpose of this utility model is to provide a kind of cross-flow type horizontal axis roof windpower generating apparatus that couches, can simple and easyly be installed in the top such as various buildings such as local-style dwelling houses, farm house, factory and warehouses, utilize the area on broad roof to form the wind gathering district with collection wind conduit, flow through impeller and improve wind-power electricity generation efficient with multiplication wind speed and air quantity, can promote popularizing of wind-power electricity generation, help the utilization of eco-friendly power source, reduce global carbon emission.

The cross-flow type horizontal axis roof windpower generating apparatus that couches of the present utility model, comprise frame, the crossing current horizontal axis generator that described frame is provided with impeller and is coupled with described impeller, the front end air intake surface of described frame and rear end air draft face are respectively equipped with collection wind conduit, and described collection wind conduit outwards is the shape that expansion is gradually extended by described frame.

In the cross-flow type horizontal axis roof windpower generating apparatus that couches described in the utility model, described collection wind conduit comprises overhead gage, right baffle-plate, right baffle plate and lower pedal, 3/4 diameter height and position of the lower edge of described overhead gage and described impeller is in same plane, and 1/4 diameter height and position of the upper edge of described lower pedal and described impeller is in same plane.

In the cross-flow type horizontal axis roof windpower generating apparatus that couches described in the utility model, described impeller has a plurality of blades, and the cross section of described blade is circular arc, and the both sides of described blade inwardly turn down and form the wind gathering district.

In the cross-flow type horizontal axis roof windpower generating apparatus that couches described in the utility model, also comprise the thermal-collecting tube type solar water heater, described thermal-collecting tube type solar water heater comprises water tank, and many vacuum glass heat collection tubes that link to each other with described water tank, described frame is arranged on the described water tank, be provided with electric heating element in the described water tank, described electric heating element is electrically connected with the output circuit of described crossing current horizontal axis generating electromechanics.

In the cross-flow type horizontal axis roof windpower generating apparatus that couches described in the utility model, two-layer about many described vacuum glass heat collection tube dislocation are arranged in, the below of described vacuum glass heat collection tube is provided with the sunlight reflected film.

In the cross-flow type horizontal axis roof windpower generating apparatus that couches described in the utility model, the outer surface of described vacuum glass heat collection tube is provided with electric heating wire, and described electric heating wire is electrically connected with the output circuit of described crossing current horizontal axis generator.

In the cross-flow type horizontal axis roof windpower generating apparatus that couches described in the utility model, also comprise storage battery, described crossing current horizontal axis generator is electrically connected with described storage battery.

In the cross-flow type horizontal axis roof windpower generating apparatus that couches described in the utility model, also comprise the flat solar water heater, described flat solar water heater comprises water tank and flat thermal-arrest plate, be provided with electric heating element in the described water tank, described electric heating element is electrically connected with the output circuit of described crossing current horizontal axis generator.

In the cross-flow type horizontal axis roof windpower generating apparatus that couches described in the utility model, the surface of described flat thermal-arrest plate is provided with electric heating wire, and described electric heating wire has the control switch to be connected with described crossing current horizontal axis generator output circuit.

In the cross-flow type horizontal axis roof windpower generating apparatus that couches described in the utility model, also comprise the polylith solar photovoltaic cell panel that is arranged on the roof, the surface of described polylith solar photovoltaic cell panel is provided with electric heating wire, and the output circuit of described electric heating wire and described crossing current horizontal axis generator is electrically connected then.

Implement the cross-flow type horizontal axis roof windpower generating apparatus that couches of the present utility model, have following beneficial effect: the cross-flow type horizontal axis roof windpower generating apparatus that couches of the present utility model is the concept of application innovation, directly wind generating unit is installed on the building.This electricity generating device installation is simple and easy, construction cost is cheap, operate quiet steady, regular maintenance is simple, the annual electric power output that more efficient can be arranged, further, can also with solar water-heating system or solar photovoltaic cell panel Collaboration, improve the application of green energy resource, profile also can combine together with the facade harmony.This application popularization that makes wind-power electricity generation is to local-style dwelling houses, farm house, factory, warehouse and away from the building of commercial power supply.This more meets the world and tends to distributed application of generating electricity by way of merging two or more grid systems gradually.Like this, numerous small-scales unit that independently generates electricity can network separately, makes the application popularization of wind energy power extend to the whole world, to reducing global carbon emission very big contribution is arranged, and development potentiality is unlimited in world markets.

Description of drawings

The utility model is described in further detail below in conjunction with drawings and Examples, in the accompanying drawing:

Fig. 1 is first embodiment's of the cross-flow type horizontal axis roof windpower generating apparatus that couches of the present utility model schematic perspective view;

Fig. 2 is couch first embodiment's the front schematic view of cross-flow type horizontal axis roof windpower generating apparatus of the utility model;

Fig. 3 is couch first embodiment's the partial schematic diagram of cross-flow type horizontal axis roof windpower generating apparatus of the utility model;

Fig. 4 a is A-A sectional drawing among Fig. 3, and signal wind is entered by front end collection wind conduit, air-flow and impeller operation direction when the impeller of flowing through is discharged from back collection wind conduit;

Fig. 4 b is A-A sectional drawing among Fig. 3, and signal wind is entered air-flow and impeller operation direction when the impeller of flowing through is discharged from front end collection wind conduit by rear end collection wind conduit.

Fig. 5 is the couch schematic representation of the blade of impeller among first embodiment of cross-flow type horizontal axis roof windpower generating apparatus of the utility model;

Fig. 6 is second embodiment's of the cross-flow type horizontal axis roof windpower generating apparatus that couches of the present utility model schematic perspective view;

Fig. 7 is second embodiment's of the cross-flow type horizontal axis roof windpower generating apparatus that couches of the present utility model front schematic view;

Fig. 8 is the 3rd embodiment's of the cross-flow type horizontal axis roof windpower generating apparatus that couches of the present utility model schematic representation;

Fig. 9 is the 3rd embodiment's of the cross-flow type horizontal axis roof windpower generating apparatus that couches of the present utility model partial schematic diagram;

Figure 10 is the plan view of solar water heater among the 3rd embodiment of the cross-flow type horizontal axis roof windpower generating apparatus that couches of the present utility model;

Figure 11 is A-A sectional drawing among Figure 10;

Figure 12 is B-B sectional drawing among Figure 10;

Figure 13 is the schematic representation of the heat collecting pipe of solar water heater;

Figure 14 is the 4th embodiment's of the cross-flow type horizontal axis roof windpower generating apparatus that couches of the present utility model schematic perspective view;

Figure 15 is the 5th embodiment's of the cross-flow type horizontal axis roof windpower generating apparatus that couches of the present utility model schematic perspective view.

Embodiment

Understand for technical characteristics of the present utility model, purpose and effect being had more clearly, now contrast accompanying drawing and describe embodiment of the present utility model in detail.

To shown in Figure 5, be first embodiment's of the cross-flow type horizontal axis roof windpower generating apparatus that couches of the present utility model schematic representation as Fig. 1.The cross-flow type horizontal axis roof windpower generating apparatus that couches of the present utility model is installed on the roof in house 100, this wind generating unit comprises frame 1, frame 1 is installed on the ridge in house 100, frame 1 can be fixed on the roof in house 100 by wirerope 8, the crossing current horizontal axis generator 3 that impeller 2 is installed on the frame 1 and is coupled with impeller 2, the axle of impeller 2 and crossing current horizontal axis generator 3 all is horizontal positioned, impeller 2 can be one or more, crossing current horizontal axis generator 3 can also can be arranged on any end of impeller 2 between two impellers 2.For the better utilization wind energy, catch more wind energy, front end air intake surface and rear end air draft face in frame 1 are respectively equipped with collection wind conduit 4, collection wind conduit 4 outwards is the shape that expansion is gradually extended by frame 1, after air-flow entered front end collection wind conduit 4, along with collection wind conduit 4 ecto-entads shrink gradually, this can pass through impeller to the air-flow speedup, make impeller 2 can obtain higher rotating speed, drive 3 generatings of crossing current horizontal axis generator.When air-flow had just entered into the exhaust zone of rear end, gas can rapid expansion produce parital vacuum, and more air-flow from the front end suction, is produced more electric energy thereby engine speed is improved more.Owing to all be provided with collection wind conduit 4 and wind-guiding baffle plate at the two ends of frame 1, so no matter being wind is blown by the front end of frame 1, still is that rear end by frame 1 blows, and can utilize wind energy to generate electricity, and the sense of rotation of generator also is same direction.Because electricity generating device can be directly installed on the building, remove from and use high bar and longspan impeller, can not impact facade.Again because of most building all towards north and south, the liftoff Gao Erchang in ridge/roof has wind, electricity generating device can operate all the year round.

Referring to Fig. 3, Fig. 4 a and Fig. 4 b, in the present embodiment, collection wind conduit 4 comprises

overhead gage

41a, 41b, right baffle-plate 42, right baffle plate 43 and lower pedal 44a, 44b,

overhead gage

41a, 41b, right baffle-plate 42, right baffle plate 43 and lower pedal 44a, 44b can cooperate with the roof, the air-flow that enters in the collection wind conduit 4 is compressed, improve the speed of airflow passes impeller 2.Further, when reducing impeller 2 revolution and air intake produce anti-resistance, last plate washer 41a, and the suitable continuation in the edge of lower pedal 44b is extended, preferably, 3/4 diameter height and position of overhead gage 41a lower edge and impeller 2 is in same plane, and 1/4 diameter height and position of the upper edge of lower pedal 44b and impeller 2 is in same plane, can increase wind speed like this by impeller 2 runnings, strengthen electric power output.Referring to Fig. 3 and Fig. 5, impeller 2 has a plurality of blades 21, and the cross section of blade 21 is circular arc, the both sides of blade 21 inwardly turn down and form wind gathering district 22, can catch more windy energy like this, improve delivery efficiency, the application of ingenious enforcement Venturi effect Venturi Effect.

Referring to Fig. 6 and Fig. 7, schematic representation for second embodiment of the cross-flow type horizontal axis roof windpower generating apparatus that couches of the present utility model, the structure of this embodiment's electricity generating device is substantially the same with the structure of first embodiment's electricity generating device, difference is, in first embodiment, respectively there are three module impellers 2 both sides of crossing current horizontal axis generator 3, and in a second embodiment, respectively there is an impeller 2 both sides of horizontal axis generator 3, the number of the impeller 2 of electricity generating device can cooperate the length on the roof in house 100 to determine.

The cross-flow type horizontal axis roof windpower generating apparatus that couches of the present utility model can utilize the roomy area of high elevation and roof of building and collection wind conduit 4 to form the wind gathering district, and air-flow is had pinch effect, to catch bigger wind speed generating.This electricity generating device can be directly installed on the roof, and construction cost is low, can cooperate facade, combines together with building.Quiet during the running of this electricity generating device, can not reach noise and vibrations within doors, and can be in office can rugged environment under; Be included under south poles and the wind and snow heavy rain long-term operation generating.This electricity generating device also can adopt PTFE or Nylon to become bearing and rotating shaft bedding and padding, and this can make equipment running out of doors for a long time, and general customary outdoor maintenance work is reduced.This electricity generating device can be expanded most building to the world to the application popularization of wind-power electricity generation, is best suited for the building away from commercial power supply.This more meets the world's popular distributed trend of generating electricity by way of merging two or more grid systems gradually, to reducing global carbon emission very big contribution is arranged.

Referring to Fig. 8 to Figure 13, be the 3rd embodiment's of the cross-flow type horizontal axis roof windpower generating apparatus that couches of the present utility model schematic representation.In this embodiment, on first embodiment of the cross-flow type horizontal axis roof windpower generating apparatus that couches and second embodiment's basis, can also comprise thermal-collecting tube type solar water heater 5, thermal-collecting tube type solar water heater 5 comprises water tank 50, and the many vacuum glass heat collection tubes 51 that link to each other with water tank 50, frame 1 can be arranged on the water tank 50, many vacuum glass heat collection tube 51 dislocation are arranged in two-layer up and down, in order farthest to utilize solar energy, below vacuum glass heat collection tube 51, be provided with sunlight reflected film 52, can will reflex on the vacuum glass heat collection tube 51 from sunlight and the near reflection light that spills between the vacuum glass heat collection tube 51, more than 60%, cost is little increasing only than traditional single tube arranged type thermal-arrest enhancing efficiency for this design proposal.Be provided with electric heating element in the water tank 50, electric heating element is electrically connected with the output circuit of crossing current horizontal axis generator 3.Can utilize electricity that crossing current horizontal axis generator 3 sends that the water of water tank 50 is heated, guarantee the hot water supply at the cloudy day that wind is arranged.The whole generating device can also comprise storage battery; crossing current horizontal axis generator 3 is electrically connected with storage battery; storage battery can store the electricity that crossing current horizontal axis generator 3 sends; the electricity that just utilizes crossing current horizontal axis generator 3 to send when storage battery is filled electricity comes the water heating water chamber 50 in, but this while protective circuit more.In order to melt the ice and snow that covers vacuum glass heat collection tube 51 outer surfaces when the ice and snow weather, can be provided with electric heating wire 53 at the outer surface of vacuum glass heat collection tube 51, electric heating wire 53 is electrically connected with the output circuit of crossing current horizontal axis generator 3, like this when ice and snow weather, can switch on to electric heating wire 53, the heat that utilizes electric heating wire 53 to produce falls ice dissolution, so that vacuum glass heat collection tube 51 can normally utilize solar energy.

Referring to Figure 14, be the 4th embodiment's of the cross-flow type horizontal axis roof windpower generating apparatus that couches of the present utility model schematic representation.In this embodiment, on first embodiment of the cross-flow type horizontal axis roof windpower generating apparatus that couches and second embodiment's basis, can also comprise the flat solar water heater, the flat solar water heater comprises water tank and flat thermal-arrest plate 61, be provided with electric heating element in the water tank, electric heating element is electrically connected with the output circuit of crossing current horizontal axis generator 3.Same in order to eliminate the influence of ice and snow, can be provided with electric heating wire 53 on the surface of flat thermal-arrest plate 61, electric heating wire 53 is electrically connected with the output circuit of horizontal axis generator 3, when sleety weather, the heat of utilizing electric heating wire 53 energisings to produce removes to melt the ice and snow that covers on the flat thermal-arrest plate 61.

Referring to Figure 15, be the 5th embodiment's of the cross-flow type horizontal axis roof windpower generating apparatus that couches of the present utility model schematic representation.In this embodiment, on first embodiment of the cross-flow type horizontal axis roof windpower generating apparatus that couches and second embodiment's basis, can also comprise the polylith solar photovoltaic cell panel 7 that is arranged on the roof, can increase gross generation like this and guarantee when not having sunlight, also to have electric energy output.The surface of polylith solar photovoltaic cell panel 7 is provided with electric heating wire 53, and electric heating wire 53 is electrically connected with the output circuit of crossing current horizontal axis generator 3, and the effect of the electric heating wire 53 among the effect of electric heating wire 53 and third and fourth embodiment is identical.

By reference to the accompanying drawings embodiment of the present utility model is described above; but the utility model is not limited to above-mentioned embodiment; above-mentioned embodiment only is schematic; rather than it is restrictive; those of ordinary skill in the art is under enlightenment of the present utility model; not breaking away under the scope situation that the utility model aim and claim protect, also can make a lot of forms, these all belong within the protection of the present utility model.

Claims

1. A lying cross-flow type horizontal axis roof wind power generation device, characterized in that it includes a frame (1), the frame (1) is provided with an impeller (2) and is coupled with the impeller (2) The cross-flow horizontal axis generator (3), the front air intake surface and the rear exhaust surface of the frame (1) are respectively equipped with air collection ducts (4), and the air collection ducts (4) are controlled by the machine The frame (1) gradually expands and extends outward.

2. The lying cross-flow horizontal axis roof wind power generation device according to claim 1, characterized in that, the air collecting duct (4) includes upper baffles (41a, 41b), left baffles (42), right The baffle (43), and the lower baffle (44a, 44b), the lower edge of the upper baffle (41a) and the 3/4 diameter height position of the impeller (2) are in the same plane, the lower baffle The upper edge of the plate (44b) is in the same plane as the 1/4 diameter height of the impeller (2).

3. The lying cross-flow horizontal axis roof wind power generation device according to claim 1, characterized in that, the impeller (2) has a plurality of blades (21), and the cross-section of the blades (21) is arc-shaped , both sides of the blade (21) are turned inward to form a wind gathering area (22).

4. The lying cross-flow horizontal axis roof wind power generation device according to claim 1, characterized in that it also includes a heat collecting tube solar water heater (5), and the heat collecting tube solar water heater (5) includes a water tank (50) , and a plurality of vacuum glass heat collecting tubes (51) connected to the water tank (50), the frame (1) is set on the water tank (50), and electric heating elements are arranged in the water tank (50), The electric heating element is electrically connected to the output circuit of the cross-flow horizontal-axis generator (3).

5. The lying cross-flow type horizontal axis roof wind power generation device according to claim 4, characterized in that, the plurality of vacuum glass heat collecting tubes (51) are arranged in an upper and lower layer in dislocation, and the vacuum glass heat collecting tubes (51 ) is provided with a sunlight reflection film (52).

6. The lying cross-flow horizontal axis roof wind power generation device according to claim 4, characterized in that, the outer surface of the vacuum glass heat collecting tube (51) is provided with a heating wire (53), and the heating wire (53 ) is electrically connected to the output circuit of the cross-flow horizontal axis generator (3).

7. The lying cross-flow horizontal-axis roof wind power generation device according to claim 4, characterized in that it further comprises a storage battery, and the cross-flow horizontal-axis generator (3) is electrically connected to the storage battery.

8. The lying cross-flow horizontal axis roof wind power generation device according to claim 1, characterized in that it also includes a flat-plate solar water heater, and the flat-plate solar water heater includes a water tank (50) and a flat-plate heat collecting plate (61) , the water tank (50) is provided with an electric heating element, and the electric heating element is electrically connected to the output circuit of the cross-flow horizontal axis generator (3).

9. The lying cross-flow horizontal axis roof wind power generation device according to claim 8, characterized in that heating wires (53) are provided on the surface of the flat heat collecting plate (61), and the heating wires (53 ) is electrically connected to the output circuit of the cross-flow horizontal axis generator (3).

10. The lying cross-flow horizontal axis roof wind power generation device according to claim 1, characterized in that it also includes a plurality of solar photovoltaic panels (7) arranged on the roof, and the plurality of solar photovoltaic panels ( 7) is provided with heating wires (53) on the surface, and the heating wires (53) are electrically connected to the output circuit of the cross-flow horizontal axis generator (3).