CN218234551U - Multifunctional wind-solar hybrid power generation tower - Google Patents

Abstract

The utility model discloses a multi-functional wind-solar complementary power generation tower, including two at least parallel arrangement's pylon, one section distance in interval is installed on the installation base face between two pylon, sets up a horizontal roof-rack on two pylon bed frames, and the support body top of horizontal roof-rack has a horizontal grid face, and the grid space in the horizontal grid face is used for installing the photovoltaic board, and aerogenerator sets up in the support body space of two pylon or the support body space of horizontal roof-rack or on the top support body of horizontal roof-rack. The utility model has firm and safe structure, and the height of the tower body can be very high, thereby improving the utilization rate of space and reducing the dependence on land; the design of the frame body structure is hollow, the influence of wind power on the safety of the tower body is reduced, the wind power generator is mounted on the tower body and is complementary with the solar power generation, and the overall power supply effect is facilitated; photovoltaic board is installed in the superiors, and the structural design of holistic planar installation frame has reduced the frontal area, and is more safe and reliable when generating efficiency is high.

Description

Multifunctional wind-solar hybrid power generation tower

Technical Field

The utility model relates to a complementary power generation tower of multi-functional scene belongs to power generation facility technical field.

Background

Solar energy is a universal source in the world known to man. Almost all energy forms are obtained by converting solar energy for many times, and only photovoltaic power generation by utilizing the solar energy is the most direct and best method and is inexhaustible clean energy. People have also developed greatly in the aspect of utilizing solar energy to generate electricity for many years, but in the present stage, the bottleneck of further promoting the large-scale development of solar photovoltaic panel electricity generation is mainly that a large amount of land area is occupied by laying large-scale photovoltaic panels. In vast deserts such as northwest, the photovoltaic power generation can be utilized without considering the area occupation, and the cost is too high because the power transmission line is too far away; photovoltaic panels are arranged on the roof of rural areas in the inland for power generation, and due to the fact that the photovoltaic panels are scattered too much and inconvenient to manage, power generation efficiency is not high, and input-output ratio is not ideal.

Such as application No. 202220026911.1, a wind-solar hybrid generating apparatus, comprising: wind-powered electricity generation mechanism, photovoltaic mechanism, wind-powered electricity generation mechanism includes: a tower section of thick bamboo and blade, a tower section of thick bamboo includes: opposite sunny and shady sides, the sunny side comprising: the blade is rotatably arranged on the tower, and the glancing area of the blade covers the first area in the projection of the sunward side along the sun ray irradiation direction; photovoltaic mechanism includes: the photovoltaic module comprises a plurality of first photovoltaic modules and a plurality of second photovoltaic modules, wherein the first photovoltaic modules are arranged on a first area, the output ends of the first photovoltaic modules are provided with Maximum Power Point Tracking (MPPT) control modules, and the second photovoltaic modules are arranged on a second area. From the disclosure of this patent, it can be seen that the concept of simply superimposing wind power generation and solar power generation to form wind-solar hybrid is clearly wrong. The sun rises from the east and falls from the west, the direction is unchanged, the wind direction is changed, different seasons and different regions are different, the shielding of the blades of the solar energy panel has great influence on the power generation performance of the solar energy panel, and the design of the tower body structure also relates to the influence of wind power on the safety of the whole tower body, which must be considered.

SUMMERY OF THE UTILITY MODEL

To the problem, the utility model provides a structural design is simple reliable, make full use of wind energy and solar energy power generation, the complementary power generation tower of multi-functional scene that the return on investment rate is high is researched and provided.

In order to achieve the above object, the present invention provides the following technical solutions: the utility model provides a multi-functional wind-solar complementary power generation tower, includes two at least parallel arrangement's pylon frame, installs on the installation basal plane at one section distance of interval between two pylon frames, sets up a horizontal roof-rack on two pylon frame, the support body top of horizontal roof-rack has a horizontal grid face, and the grid space in the horizontal grid face is used for installing the photovoltaic board, and aerogenerator sets up in the support body space of two pylon frames or the support body space of horizontal roof-rack, or on the top support body of horizontal roof-rack.

Furthermore, four mounting bases are arranged at the bottom of the frame body of the base tower frame, the four mounting bases form four square intersection points, and each mounting base is connected with one end of each of the three main support rods to form an inverted triangular three-dimensional structure.

Furthermore, the frame body of the foundation tower is divided into a plurality of layers, each layer forms a quadrilateral frame by four cross beams, the top end of one main support rod in the middle of the inverted triangular three-dimensional structure is connected with the connecting point of the two cross beams in the quadrilateral frame, and the other two main support rods are respectively connected with the rod bodies of the two cross beams.

Furthermore, a reinforcing rod is arranged between any two of the four cross beams.

Further, the cross top frame is an inverted triangular frame body, the inverted triangular frame body is formed by connecting a plurality of inverted triangular frames through a bottom connecting beam and two top connecting beams respectively, a three-dimensional frame formed by connecting a plurality of reinforcing rods between two adjacent inverted triangular frames is arranged at the tops of two basic towers, and four cross beams at the tops of the two basic towers are connected with one of the two top connecting beams through a fixed beam.

Furthermore, the inverted triangle frame is a triangle frame formed by three bars, and the auxiliary connecting rods are arranged in the frame body from the top points of the inverted triangle to the corresponding sides, and the number of the auxiliary connecting rods is more than 0.

Furthermore, an auxiliary frame is arranged between the two foundation towers, and the top of the auxiliary frame is connected with the transverse top frame.

Further, the height of the base tower is not less than 5m.

The utility model has the beneficial technical effects that: the structure is firm and safe, and the height of the tower body can be very high, so that the utilization rate of space is improved, and the dependence on land is reduced; the design of the frame body structure is hollow, so that the influence of wind power on the safety of the tower body is reduced, and meanwhile, the wind power generator can be fully installed on the tower body and is complementary with the solar power generation without influence on each other, so that the whole power supply effect is facilitated; the photovoltaic board is installed in the superiors, and the photic is effectual, is difficult for receiving other objects and shelters from, and the structural design of holistic planar installation frame has reduced the area of facing the wind, and is safe and reliable when generating efficiency is high.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic structural view of the horizontal grid surface of the present invention.

In the figure: 1. the device comprises a foundation tower frame, 2, a transverse top frame, 3, a transverse grid surface, 4, main supporting rods, 5, cross beams, 6, bottom connecting beams, 7, top connecting beams and 8 and an auxiliary frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

The multifunctional wind-solar hybrid power generation tower shown in fig. 1 comprises at least two base towers 1 which are arranged in parallel, wherein the two base towers 1 are arranged on an installation base surface at intervals, a transverse overhead frame 2 is arranged on the two base towers 1, a transverse grid surface 3 (shown in fig. 2) is arranged at the top of a frame body of the transverse overhead frame 2, a grid space in the transverse grid surface 3 is used for installing a photovoltaic panel, and a wind driven generator is arranged in the frame body space of the two base towers 1 or the frame body space of the transverse overhead frame 2 or the top frame body of the transverse overhead frame 2.

The height of the foundation tower 1 is not less than 5m.

This embodiment provides a structure that requires a space. The maximum practical value is that the tower body can be manufactured into different heights according to the needs, the two base towers 1 occupy small area, but enough space is reserved for the transverse top frame 2. The tower body of the design is hollow, the wind resistance is small, the structure is firm and safe, and the height of the tower body can be very high, so that the utilization rate of space is improved, and the dependence on land is reduced.

The utility model discloses the multi-functional of structure lies in: firstly, complementary combination of wind power generation and solar power generation is realized, the wind power generation and the solar power generation are integrated, the wind power generation adopts the existing vertical wind driven generator, and the solar power generation adopts the existing photovoltaic power generation equipment to form a complementary power generation form in daytime and at night. Due to the high installation position, the wind power generation can normally generate power in 3-grade wind, and the photovoltaic panel power generation is generally concentrated on 8 am to about half 5 pm. Secondly, when the height of the tower body is more than 12 meters, the tower body can be in a north-south direction or a certain inclination angle slightly on the field, the illumination of sunlight can shield crops below in dozens of minutes, and the sunlight can not affect the rest time, so that the crop planting cannot be influenced too much, the combination of power generation and planting is realized, the area for lighting and power generation is more than 70 times of the occupied area, and a way is provided for developing new energy in rural areas. Furthermore, when the height of the tower body is 10 meters or less, the installation environment can be a non-field environment, the tower body can be used as a car shed or a simple warehouse by slightly decorating, and in addition, the tower body can also be installed in a hillside forest, so that the growth of trees is not influenced too much.

Example 2

As a specific design, four mounting bases are arranged at the bottom of the frame body of the base tower frame 1, the four mounting bases form four square intersection points, and each mounting base is connected with one end of each of the three main supporting rods 4 to form an inverted triangular three-dimensional structure.

The frame body of the foundation tower frame 1 is divided into a plurality of layers, each layer forms a quadrilateral frame by four cross beams 5, the top end of one main support rod in the middle of the inverted triangular three-dimensional structure is connected with the connecting point of the two cross beams in the quadrilateral frame, and the other two main support rods are respectively connected with the rod bodies of the two cross beams.

As a reinforced design, a reinforcing rod is arranged between any two of the four cross beams.

In this embodiment, a specific design is given, which considers more the hollowing effect, the stability of the tower body and the degree of the illumination influence on the crops below.

Example 3

As a specific design, the cross top frame 2 is an inverted triangle frame body, the inverted triangle frame body is respectively connected by a plurality of inverted triangles through a bottom connecting beam 6 and two top connecting beams 7, and is connected with a three-dimensional frame formed by a plurality of reinforcing rods between two adjacent inverted triangles, the bottom connecting beam is erected at the top of two base towers, and four cross beams at the top of two base towers 1 are connected with one of the two top connecting beams 7 through a fixed beam.

The inverted triangular support is a triangular frame formed by three bar beams, and an auxiliary connecting rod is arranged in the frame body from the vertex of the inverted triangle to the corresponding side, and the number of the auxiliary connecting rods is more than 0.

An auxiliary frame 8 is further arranged between the two foundation towers 1, and the top of the auxiliary frame 8 is connected with the transverse top frame 2.

The design of the frame body structure is hollow, so that the influence of wind power on the safety of the tower body is reduced, and meanwhile, the wind power generator can be fully installed on the tower body and is complementary with the solar power generation without influence on each other, so that the whole power supply effect is facilitated; the photovoltaic board is installed in the superiors, and the photic is effectual, is difficult for receiving other objects and shelters from, and the structural design of holistic planar installation frame has reduced the area of facing the wind, and is safe and reliable when generating efficiency is high.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (8)

1. The utility model provides a complementary power generation tower of multi-functional scene which characterized in that: including two at least parallel arrangement's base tower frame, install on the installation foundation face at one section distance of interval between two base tower frames, set up a horizontal roof-rack on two tower bed frames, the support body top of horizontal roof-rack has a horizontal grid face, and the grid space in the horizontal grid face is used for installing the photovoltaic board, and aerogenerator sets up in the support body space of two base tower frames or the support body space of horizontal roof-rack, or on the top support body of horizontal roof-rack.

2. The multifunctional wind-solar hybrid power tower according to claim 1, wherein: four mounting bases are arranged at the bottom of the frame body of the base tower frame, the four mounting bases form four square intersection points, and each mounting base is connected with one end of each of the three main supporting rods to form an inverted triangular three-dimensional structure.

3. The multifunctional wind-solar hybrid power tower according to claim 2, wherein: the frame body of the foundation tower frame is divided into a plurality of layers, each layer forms a quadrilateral frame by four cross beams, the top end of one main support rod in the middle of the inverted triangular three-dimensional structure is connected with the connecting point of the two cross beams in the quadrilateral frame, and the other two main support rods are respectively connected with the rod bodies of the two cross beams.

4. The multifunctional wind-solar hybrid power tower according to claim 3, wherein: and a reinforcing rod is arranged between any two of the four cross beams.

5. The multifunctional wind-solar hybrid power tower according to claim 1, wherein: the horizontal top frame is the triangle frame body of falling, and this triangle frame body of falling is connected respectively through a bottom tie-beam and two top tie-beams by a plurality of triangle frame of falling to connect the three-dimensional frame that constitutes through a plurality of stiffeners between two adjacent triangle frames of falling, the bottom tie-beam erects at the top of two foundation towers, and four crossbeams at two foundation tower tops all are connected through a fixed beam and in two top tie-beams.

6. The multifunctional wind-solar hybrid power tower according to claim 5, wherein: the inverted triangular support is a triangular frame formed by three bar beams, and an auxiliary connecting rod is arranged in the frame body from the vertex of the inverted triangle to the corresponding side, and the number of the auxiliary connecting rods is more than 0.

7. The multifunctional wind-solar hybrid power tower according to claim 1, wherein: an auxiliary frame is further arranged between the two foundation towers, and the top of the auxiliary frame is connected with a transverse top frame.

8. The multifunctional wind-solar hybrid power tower according to claim 1, wherein: the height of the base tower is not less than 5m.

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