CN102588225A - Axis-free wind power generation tower with a cylindrical frame structure - Google Patents

Abstract

The invention provides an axis-free wind power generation tower with a cylindrical frame structure, comprising a tower body that has an anemorumbograph, wherein the tower body comprises at least two layers of wind power generating units and a support column that passes through the centers of the wind power generating units. The wind power generation tower of the invention achieves axis-free structure of the wind power generation tower and the support column does not consume wind power, so as to save part of the wind power which is consumed by a traditionally adopted vertical shaft and effectively increase the utilization rate of the wind power. The wind power generating unit comprises a generator set, an annular support frame that is permanently connected with the support column, and a wind wheel movably connected with the support frame. The cylindrical multi-layer structure of the axis-free wind power generation tower with a cylindrical frame structure can avoid the impact of above-ground buildings and trees on the wind velocity and generate power by the high-layer wind, which effectively increases the single-machine capacity of the wind power generator. Moreover, the wind power generating units and corresponding generator set run independently, so as to make full use of the wind power at all heights and increase the comprehensive utilization rate of the wind power to the maximum extent.

Description

A kind of cylindrical frame structure non-shaft wind power generation tower

Technical field

The present invention relates to a kind of cylindrical frame structure non-shaft wind power generation tower that is used for oil-field oil pumper, radar base station, military installations, borderguard, load power supply such as civilian.

Background technique

Wind-driven generator is the key equipment in the wind-power generating system, and it is mechanical energy with wind energy transformation and then is converted into electric energy.At present, wind-driven generator mainly has two types of horizontal axis wind-driven generator and vertical axis aerogenerators.But there are many drawbacks in horizontal axis lift-type wind power plant and vertical axis wind-mill generator, are apparent that the most single-machine capacity is little; Cost is high; Wind energy utilization is low, and Safety performance is low, anti-natural disaster ability; Installation, difficult in maintenance, the infrasonic sound that produces during impeller operation also can pollute ecotope.Vertical axis wind-mill generator receives the capacity restriction equally, and huge vertical shaft and all fan blade weight and own wt can consume most of wind energy, cause generating efficiency lower.Existing in prior technology deficiency that Here it is.

Summary of the invention

The technical problem that the present invention will solve is exactly not enough to existing in prior technology, and provides a kind of wind energy utilization high, and the high cylindrical frame structure non-shaft wind power generation tower of generating efficiency.

This programme is realized through following technical measures: this cylindrical frame structure non-shaft wind power generation tower comprises the body of the tower that has anemoclinograph; Said body of the tower comprises two-layer at least wind-power electricity generation unit and runs through the supporting post of wind-power electricity generation unit center, the ring support frame that said wind-power electricity generation unit comprises generator set, be fixedly connected with supporting post and with the wind wheel of support frame flexible connection.

Above-mentioned support frame comprises and two-layerly is that the center of circle is the evenly distributed carrying crossbeam of dispersion shape with the supporting post and is that the center of circle is the carrying collar tie beam that the concentric circle annular is arranged with the supporting post; Carry crossbeam and be penetrated with the supplemental support post with the infall that carries collar tie beam; Supporting post, carrying crossbeam, carrying collar tie beam and supplemental support post form frame structure; The own wt of this frame structure is lighter, can effectively reduce the wind energy consumption of own wt, thereby can improve wind energy utilization effectively.

Above-mentioned wind wheel comprises fan blade mechanism and the ring swinging mounting that is fixedly connected with the two ends up and down of fan blade mechanism; Swinging mounting flexibly connects with the carrying collar tie beam; Through the flexible connection of two ends swinging mounting and respective carrier collar tie beam up and down, realized that wind wheel generates electricity around the supporting post rotation under the effect of wind-force.

The swinging mounting side that is fixedly connected with the end points at two ends about the above-mentioned fan blade mechanism flexibly connects with the carrying collar tie beam; Carry collar tie beam and be provided with the vertical sliding wheel that cooperates with this side; Vertical sliding wheel can guarantee the rotation of whole wind wheel; Can carry out the location of substantially horizontal again to wind wheel, guarantee the job stabilization of wind wheel.

The rotor of above-mentioned generator set evenly is arranged on the swinging mounting lower end surface at fan blade mechanism lower extreme point place; The corresponding carrying on the crossbeam is fixedly connected with the ring stator scaffold corresponding with rotor-position; Evenly be provided with stator on the stator scaffold, promptly this swinging mounting cooperates with the vertical sliding wheel that carries collar tie beam through the side, through the rotor generation magnetic field of lower end surface; So this structure can guarantee the wind wheel normal rotation, can guarantee the generator set normal power generation again.

At least be fixedly connected with a ring swinging mounting between two end points at above-mentioned fan blade mechanism two ends; The carrying collar tie beam that flexibly connects with this swinging mounting is provided with some horizontal trolleys; Strengthen carrying the support strength of crossbeam through this carrying collar tie beam; Horizontal trolley on it can carry out Vertical location to wind wheel again simultaneously, to strengthen the job stabilization of wind wheel.

On the outermost carrying collar tie beam of above-mentioned wind wheel, be connected with the curvecd surface type safety cover in order, form a cylinder when all safety covers are closed.When meeting diastrous weather such as violent typhoon, it is closed that control system drives all safety covers, can form a cylinder after each safety cover closure, whole wind-force generator unit cover risen, in case it is impaired; When not having diastrous weathers such as violent typhoon; The safety cover that is positioned at the negative work district is closed, and the safety cover that is positioned at the positive work district is opened, and has so both reduced the rotational resistance of wind wheel effectively; Enlarge the wind-exposuring area of wind wheel again effectively, improved utilization ratio of wind energy and generating efficiency effectively.

Above above-mentioned the superiors wind-power electricity generation unit, be provided with multi-functional layer; Last multi-functional layer top is provided with water reservoir; Below said orlop wind-power electricity generation unit, be provided with multi-functional down layer; Multi-functional down layer below is provided with down water reservoir, is provided with hydraulic turbine generator in the following water reservoir.Wherein, last multi-functional layer can be used as with multi-functional layer down go sightseeing, food and drink, office and factory etc. all can.In addition, when wind-force is rich, can be with descending the water in the water reservoir to be extracted in the water reservoir; When wind-force is little can not satisfy the generating needs time, in the downward water reservoir of last water reservoir, discharge water, utilize up and down water-head to drive hydraulic turbine generator and replenish generating; And this water can recycle, can not waste.

On above-mentioned carrying crossbeam, be provided with two fan blade mechanisms at least, the quantity of fan blade mechanism can be provided with according to the generating needs flexibly; Fan blade mechanism and supplemental support post are provided with; At least be connected in series with two curvecd surface type fan blades on the said fan blade mechanism; Curve form can increase the area of contact of fan blade itself and wind; And the structural type of series connection has improved the utilization ratio of wind energy effectively with the wind-exposuring area increase of whole fan blade mechanism each other.

Above-mentioned supporting post is the reinforced concrete construction of hollow or the steel structure of hollow; The supplemental support post is hollow or solid reinforced concrete construction or steel structure.Hollow structure can alleviate the own wt of whole tower on the one hand, and on the other hand, supporting post inside can also be designed to multi-layer structure, and indoor design has elevator and step ladder, can be used as purposes such as office, lodging and food and drink.

The beneficial effect of this programme can be learnt according to the narration to such scheme; In this cylindrical frame structure non-shaft wind power generation tower; Said body of the tower comprises two-layer at least wind-power electricity generation unit and the supporting post that runs through the wind-power electricity generation unit center, has realized wind power generation stepped no axle construction, and supporting post does not have wind-force consumption; Save the part wind energy that vertical shaft consumed of traditional employing, improved utilization ratio of wind energy effectively.Ring support frame that said wind-power electricity generation unit comprises generator set, be fixedly connected with supporting post and the wind wheel that flexibly connects with support frame.The cylindrical multi-layer structure of this cylindrical frame structure non-shaft wind power generation tower; Can avoid face of land building and trees to Influences on Wind Velocity; Can utilize high-rise wind energy to generate electricity, improve the single-machine capacity of wind-driven generator effectively, and each wind-power electricity generation unit and corresponding generator set independent operating; Can the wind energy of different heights all be made full use of, improved whole Wind Power Utilization efficient to greatest extent.This shows that the present invention compared with prior art has outstanding substantive distinguishing features and obvious improvement, the beneficial effect of its enforcement also is conspicuous.

Description of drawings

Fig. 1 is the structural representation of the specific embodiment of the invention.

Fig. 2 is not for installing the structural representation of the wind-power electricity generation unit of safety cover among Fig. 1.

Fig. 3 is the partial enlarged drawing that A is ordered among Fig. 2.

Fig. 4 is the partial enlarged drawing that B is ordered among Fig. 2.

Fig. 5 is the partial structurtes schematic representation of generator set.

Fig. 6 is the structural representation of wind wheel behind the installation safety cover.

Among the figure, 1 is lightning conductor, and 2 is anemoclinograph, and 3 is iron tower, and 4 is the top layer outlet of supporting post, and 5 is last multi-functional layer; 6 is the wind-power electricity generation unit, and 7 is the supplemental support post, and 8 is wind wheel, and 9 is supporting post, and 10 for carrying collar tie beam, and 11 are supporting post access path inlet; 12 are following multi-functional layer, and 13 are water reservoir down, and 14 be body of the tower, and 15 be last water reservoir, and 16 is the carrying crossbeam, and 17 is pulley; 18 is fan blade mechanism, and 19 is blade support, and 20 is fan blade, and 21 is swinging mounting, and 22 is rotor; 23 is stator, and 24 is staor winding, and 25 is the stator scaffold, and 26 is safety cover, and 27 is the safety cover positioning shaft.

Embodiment

For clearly demonstrating the technical characterstic of this programme, below through embodiment, and combine its accompanying drawing, this programme is set forth.

A kind of cylindrical frame structure non-shaft wind power generation tower; As shown in Figure 1; It comprises the body of the tower 14 that has lightning conductor 1 and anemoclinograph 2; Said body of the tower 14 comprises two-layer at least wind-power electricity generation unit 6 and the supporting post 9 that runs through 6 centers, wind-power electricity generation unit, and said wind-power electricity generation unit 6 comprises generator set, the ring support frame that is fixedly connected with supporting post 9 and the wind wheel 8 that flexibly connects with support frame.

Wherein, Like Fig. 2-shown in Figure 4; It is that the center of circle is the evenly distributed carrying crossbeam 16 of dispersion shape and is that the center of circle is the carrying collar tie beam 10 that concentric circle annular is arranged with supporting post 9 with supporting post 9 that support frame comprises two-layer, carries crossbeam 16 and is penetrated with supplemental support post 7 with the infall that carries collar tie beam 10, and crossbeam 16 is carried on the upper strata and to carry collar tie beam 10 corresponding with the upper end of wind wheel 8; It is corresponding with the lower end of wind wheel 8 with carrying collar tie beam 10 that crossbeam 16 is carried in lower floor; Supporting post 9, carry crossbeam 16, carry collar tie beam 10 and supplemental support post 7 is integrally formed frame structure, and supporting post 9, carry crossbeam 16, carry collar tie beam 10 and supplemental support post 7 can adopt reinforced concrete construction, steel structure etc., the own wt of this tower structure is lighter; Can reduce the wind energy consumption of own wt effectively, thereby improve wind energy utilization effectively.

Said wind wheel 8 comprises fan blade mechanism 18 and the ring swinging mounting 21 that is fixedly connected with the two ends up and down of fan blade mechanism 18; Swinging mounting 21 flexibly connects with carrying collar tie beam 10; And flexibly connect with carrying collar tie beam 10 with the side of the fan blade mechanism swinging mounting 21 that the end points place at two ends is fixedly connected about in the of 18; This flexible connection is to realize through carrying the pulley 17 that collar tie beam 10 is provided with the vertical shaft that cooperates with this side; The pulley 17 of vertical shaft can guarantee the rotation of whole wind wheel 8 on the one hand, can carry out the location of substantially horizontal simultaneously again to wind wheel 8.In the power generation operation process, it is fixed to carry collar tie beam 10, and swinging mounting 21 is rotating around supporting post 9 on carrying collar tie beam 10 under the driving of wind-force, has realized that through this mode of being slidingly connected wind wheel 8 generates electricity around supporting post 9 rotations under the effect of wind-force.

As shown in Figure 5; The rotor 22 of said generator set evenly is arranged on the lower end surface of ring swinging mounting 21 at 18 two lower extreme point places of fan blade mechanism; Be fixedly connected with the ring stator scaffold 25 corresponding with rotor 22 positions on the carrying crossbeam 16 of fan blade mechanism 18 belows, evenly be provided with stator 23 on the stator scaffold 25, promptly this swinging mounting 21 cooperates with the vertical shaft pulley 17 that carries collar tie beam 10 through its side; Wind wheel 8 is rotated around supporting post 9 under wind; Wind wheel 8 drives rotor 22 and rotates generation magnetic field synchronously when rotating, so this structural type can guarantee wind wheel 8 normal rotation, can guarantee the generator set normal power generation again.

Like Fig. 2-shown in Figure 4; At least be fixedly connected with a ring swinging mounting 21 respectively between two end points of between two end points of blade support 19 upper ends and blade support 19 lower ends in the said fan blade mechanism 18; The carrying collar tie beam 10 that flexibly connects with this swinging mounting 21 is provided with the pulley 17 of some horizontal axis; Strengthen carrying the support strength of crossbeam 16 through this carrying collar tie beam 10, the horizontal axis pulley 17 that carries on the collar tie beam 10 of two ends can carry out Vertical location to wind wheel 8 again up and down simultaneously.

As shown in Figure 6; Wind power generation stepped in that to run into diastrous weathers such as violent typhoon injury-free in order to protect; Flexible connection (as hinged) has several curvecd surface type safety covers 26 in order on above-mentioned wind wheel 8 outermost carrying collar tie beams 10; Flexible connection point next door at safety cover 26 is provided with safety cover positioning shaft 27, when all safety cover 26 closures, can form a cylinder.Can in time send control system to when detecting diastrous weather signal such as typhoon when anemoclinograph 2, all safety covers 26 of control system control are closed, thereby make whole wind-power electricity generation tower form a cylindrical body, and its inner device can not be damaged or destroy; When not having diastrous weathers such as violent typhoon; Control system is according to the wind direction information that receives, and control is positioned at the safety cover 26 in negative work district closes, and the safety cover 26 that is positioned at the positive work district opens; So both reduce the rotational resistance of wind wheel 8, improved the wind-exposuring area of wind wheel 8 again.

As shown in Figure 1; Above above-mentioned the superiors wind-power electricity generation unit 6, be provided with multi-functional layer 5; Last multi-functional layer 5 top are provided with water reservoir 15; Below said orlop wind-power electricity generation unit 6, be provided with multi-functional down layer 12, following multi-functional layer 12 below are provided with down water reservoir 13, are provided with hydraulic turbine generator in the following water reservoir 13.Wherein, last multi-functional layer 5 can be used for being provided with multi-functional layer 12 down go sightseeing, service facility such as food and drink or be used for office, offer factory etc.In addition; When wind-force is rich, can be subsequent use with descending water in the water reservoir 13 to be extracted in the water reservoir 15, when wind-force is little can not satisfy the generating needs time; In last water reservoir 15, discharge water in the water reservoir 13 downwards; Water-head drives hydraulic turbine generator and replenishes generating about utilizing, to satisfy the electricity consumption needs, water reusable edible wherein.

Like Fig. 2-shown in Figure 4; On above-mentioned carrying crossbeam 16, be provided with two fan blade mechanisms 18 at least, the quantity of fan blade mechanism 18 can be provided with according to the generate output needs flexibly, can be provided with 3,6,12 or more a plurality of; The most inboard is exciter; Outermost main generator, intermediate portion be time generator, the exciter electricity is as the excitation power supply of main generator with time generator; Fan blade mechanism 18 is to be provided with at interval with supplemental support post 7.Wherein, Fan blade mechanism 18 comprises fan blade 20 and the blade support 19 that is used to install fan blade 20; The transverse section of blade support 19 is a D shape, on blade support 19, is connected in series with two curvecd surface type fan blades 20 at least, and preferred three fan blades 20 are connected in series; This structural type has increased the wind-exposuring area of whole fan blade mechanism 18, has improved the utilization ratio of wind energy effectively.

Said supporting post 9 is a hollow structure; Supplemental support post 7 can be hollow structure, also can be solid construction.Supporting post 9 inside can be used as purposes such as office, lodging, food and drink, can also be designed with elevator and step ladder, and every layer is designed with access path, convenient maintenance.

Can pass through existing techniques in realizing without the technical characteristics of describing among the present invention, repeat no more at this.The present invention is not limited in above-mentioned embodiment, and the variation that those of ordinary skills make in essential scope of the present invention, remodeling, interpolation or replacement also should belong to protection scope of the present invention.

Claims (10)

1. cylindrical frame structure non-shaft wind power generation tower; It comprises the body of the tower that has anemoclinograph; It is characterized in that: said body of the tower comprises two-layer at least wind-power electricity generation unit and runs through the supporting post of wind-power electricity generation unit center, the ring support frame that said wind-power electricity generation unit comprises generator set, be fixedly connected with supporting post and with the wind wheel of support frame flexible connection.

2. cylindrical frame structure non-shaft wind power generation tower according to claim 1; It is characterized in that: said support frame comprises and two-layerly is that the center of circle is the evenly distributed carrying crossbeam of dispersion shape with the supporting post and is that the center of circle is the carrying collar tie beam that the concentric circle annular is arranged with the supporting post, carries crossbeam and is penetrated with the supplemental support post with the infall that carries collar tie beam.

3. cylindrical frame structure non-shaft wind power generation tower according to claim 1 and 2 is characterized in that: said wind wheel comprises fan blade mechanism and the ring swinging mounting that is fixedly connected with the two ends up and down of fan blade mechanism, and swinging mounting flexibly connects with the carrying collar tie beam.

4. cylindrical frame structure non-shaft wind power generation tower according to claim 3; It is characterized in that: the swinging mounting side that is fixedly connected with the end points at two ends about the said fan blade mechanism flexibly connects with carrying collar tie beam, carries collar tie beam and is provided with the vertical sliding wheel that cooperates with this side.

5. cylindrical frame structure non-shaft wind power generation tower according to claim 4; It is characterized in that: the rotor of said generator set evenly is arranged on the swinging mounting lower end surface at fan blade mechanism lower extreme point place; The corresponding carrying on the crossbeam is fixedly connected with the ring stator scaffold corresponding with rotor-position, evenly is provided with stator on the stator scaffold.

6. cylindrical frame structure non-shaft wind power generation tower according to claim 4; It is characterized in that: be fixedly connected with a ring swinging mounting at least between two end points at said fan blade mechanism two ends, the carrying collar tie beam that flexibly connects with this swinging mounting is provided with some horizontal trolleys.

7. cylindrical frame structure non-shaft wind power generation tower according to claim 2 is characterized in that: on the outermost carrying collar tie beam of said wind wheel, be connected with the curvecd surface type safety cover in order, form a cylinder when all safety covers are closed.

8. cylindrical frame structure non-shaft wind power generation tower according to claim 1 and 2; It is characterized in that: above said the superiors wind-power electricity generation unit, be provided with multi-functional layer; Last multi-functional layer top is provided with water reservoir; Below said orlop wind-power electricity generation unit, be provided with multi-functional down layer, following multi-functional layer below is provided with down water reservoir, is provided with hydraulic turbine generator in the following water reservoir.

9. cylindrical frame structure non-shaft wind power generation tower according to claim 3; It is characterized in that: on said carrying crossbeam, be provided with two fan blade mechanisms at least; Fan blade mechanism and supplemental support post are provided with, and are connected in series with two curvecd surface type fan blades on the said fan blade mechanism at least.

10. cylindrical frame structure non-shaft wind power generation tower according to claim 2 is characterized in that: said supporting post is the reinforced concrete construction of hollow or the steel structure of hollow; The supplemental support post is hollow or solid reinforced concrete construction or steel structure.

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