CN218293024U - Pagoda type wind-solar hybrid power generation tower - Google Patents
Pagoda type wind-solar hybrid power generation tower Download PDFInfo
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- CN218293024U CN218293024U CN202222727290.2U CN202222727290U CN218293024U CN 218293024 U CN218293024 U CN 218293024U CN 202222727290 U CN202222727290 U CN 202222727290U CN 218293024 U CN218293024 U CN 218293024U
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- 238000010248 power generation Methods 0.000 title claims abstract description 36
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Abstract
The utility model discloses a pagoda type scene complementary power generation tower, including at least one tower body, the tower body has foot and body of the tower portion, and wherein the foot comprises three foot support, and the upper portion and the body of the tower portion of three foot support are connected, and the three installation foot in bottom is connected with the installation base face, and three installation foot is triangle-shaped and arranges, and body of the tower portion is connected by a plurality of layers of fretwork pylon and is constituted, sets up a plurality of quadrangle frames on arbitrary one face in the three faces that body of the tower portion formed, installs photovoltaic board in quadrangle frame, is close to a plurality of layers of the top of the tower at body of the tower portion and sets up vertical wind power generator. The utility model has firm structure, safety and reliability, the tower body improves the utilization rate of space, and the dependence on land is reduced; the design of the frame body structure is hollow and the design of wind is designed, so that the influence of wind power on the safety of the tower body is reduced, the wind power generation and the solar power generation can be fully utilized to form complementation, and the effect of integral power supply is facilitated; the light receiving effect is good, the light receiving device is not easy to be shielded by other objects, and the power generation efficiency is high.
Description
Technical Field
The utility model relates to a pagoda type scene complementary power generation tower belongs to power generation facility technical field.
Background
Solar energy is a versatile source in the world known to mankind. 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 popularizing 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; the photovoltaic panel is arranged on the roof of the rural area in the inland for power generation, and the photovoltaic panel is too scattered and inconvenient to manage, so that the power generation efficiency is not high, and the input-output ratio is not ideal.
In order to solve the technical problems, different technical schemes are provided in the prior art, but in a wind-solar hybrid power generation system, the technical scheme capable of realizing large-power grid-connected power generation is not too many. The wind-solar combined power generation system as given in the application number 201610985229.4 is a single power generation tower and tower body multi-layer structure, and is structurally characterized in that at least part of tower layers of the power generation tower are wind collecting layers; each wind collecting layer is internally provided with a wind power generation unit and a plurality of wind guide walls, the wind power generation unit is arranged in the center of the corresponding wind collecting layer, and each wind guide wall is vertically arranged on the laminated plate of the corresponding wind collecting layer and extends to the outer edge of the laminated plate from the vicinity of the adjacent wind power generation unit; in each wind collecting layer, two adjacent wind guide walls are surrounded to form a wind guide part with openings on the outer side and the inner side, and each wind guide part gradually shrinks from the outer side to the inner side; photovoltaic panel groups are arranged on the top of the tower and in each wind collecting layer; in each wind collecting layer, a photovoltaic panel group is arranged in each wind guide part at least at the sunny side of the wind collecting layer.
As can be seen from the structure and the disclosure of the attached drawings, a plurality of wind guide walls are needed, and the photovoltaic panel group is arranged in the wind collecting layer except the top of the tower, and is also needed to be arranged on the sunny side. Those skilled in the art will appreciate that the sun is located in the sky and that the wind direction is not a steady wind direction.
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, and the complementary power generation tower of pagoda type 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 pagoda type scene complementary power generation tower, includes at least one tower body, the tower body has foot and body of the tower portion, and wherein the foot comprises three foot support, and the upper portion and the body of the tower portion of three foot support are connected, and the three installation foot in bottom is connected with the installation base face, and three installation foot is triangle-shaped and arranges, and body of the tower portion is connected by a plurality of layers of fretwork pylon and constitutes, sets up a plurality of quadrangle frames on arbitrary one in three faces that body of the tower portion formed, installs the photovoltaic board on the quadrangle frame, sets up vertical aerogenerator in a plurality of layers that body of the tower portion is close to the top of the tower.
Furthermore, the mounting feet of the foot support are simultaneously connected with one ends of the three main support rods to form an inverted triangular three-dimensional structure.
Furthermore, a triangular frame is formed by three beams at the joint of the tower body part and the foot part, 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 two beams in the triangular frame, and the other two main support rods are respectively connected with rod bodies of the two beams.
Furthermore, a reinforcing rod is arranged between any two of the cross beams.
Furthermore, the quadrilateral frame is composed of a side vertical beam of each layer of tower, an upper cross beam and a lower cross beam of the layer of tower, and a middle beam connecting the upper cross beam and the lower cross beam.
Furthermore, the top that is located horizontal axis of the sheet frame both sides of photovoltaic board sets up the pivot, and the pivot is erected roof beam and centre sill rotation with the limit of quadrangle frame respectively and is connected, at the face in the photovoltaic board towards the tower body, and is located the top installation counter weight of horizontal axis.
Furthermore, the connecting point of the middle beam and the lower beam is respectively provided with a reinforcing rod towards the other two beams which form a triangular frame with the beam, the upper beam body of the connecting point of the middle beam and the lower beam is respectively provided with an inclined reinforcing rod, and the other ends of the two inclined reinforcing rods are connected with the rod bodies of the reinforcing rods.
Further, the tower body sets up two, leaves the clearance between two tower bodies, connects through the auxiliary frame between the quadrangle frame place face, and the auxiliary frame place face is used for installing the photovoltaic board.
Furthermore, the auxiliary frame and each layer of the tower bodies on the two sides are provided with connecting rod frames.
The utility model has the beneficial technical effects that: the triangular tower body has firm structure, safety and reliability, 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 utilized to be installed on the tower body, and the wind power generator is complementary with solar power generation without influence on each other, so that the integral power supply effect is facilitated; the photovoltaic panel is installed at a facade of triangle-shaped tower body, and is photic effectual, is difficult for receiving other objects and shelters from, and the 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 embodiment 1 of the present invention;
fig. 2 is a schematic structural diagram of a square frame of embodiment 1 of the present invention;
fig. 3 is a schematic view of a photovoltaic panel mounting structure according to embodiment 1 of the present invention;
fig. 4 is a schematic perspective view of embodiment 2 of the present invention.
In the figure: 1. the tower comprises a tower body, 2, feet, 21, foot supports, 22, main support rods, 23, cross beams, 3, a tower body part, 4, a quadrilateral frame, 41, side vertical beams, 42, upper cross beams, 43, lower cross beams, 44, middle beams, 5, reinforcing rods, 6, oblique reinforcing rods, 7, an auxiliary frame, 8, photovoltaic panels, 81, plate frames, 82, rotating shafts, 83 and balance weights.
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 efforts all belong to the protection scope of the present invention.
Example 1
As shown in fig. 1 and 2, the pagoda-type wind-solar hybrid power generation tower comprises at least one tower body 1, wherein the tower body 1 is provided with a foot part 2 and a tower body part 3, the foot part 2 is composed of three foot supports 21, the upper parts of the three foot supports 21 are connected with the tower body part 3, the three mounting feet at the bottom are connected with a mounting base plane, the three mounting feet are arranged in a triangular mode, the tower body part 3 is composed of a plurality of layers of hollowed-out towers in a connected mode, any one of three surfaces formed by the tower body part 3 is provided with a plurality of quadrilateral frames 4, photovoltaic panels 8 are mounted on the quadrilateral frames 4, and a plurality of layers of vertical wind driven generators are arranged in the tower body part 3 close to the tower top.
The mounting foot of the foot bracket 21 is simultaneously connected with one end of the three main supporting rods 22 to form an inverted triangle three-dimensional structure.
The connecting part of the tower body part 3 and the foot part 2 is provided with a triangular frame formed by three beams 23, the top end of one main support rod 22 in the middle of the inverted triangular three-dimensional structure is connected with the connecting point of two beams 23 in the triangular frame, and the other two main support rods 22 are respectively connected with the rod bodies of the two beams 23.
A reinforcing bar 5 is arranged between any two of the cross beams 23.
The quadrangular frame 4 is composed of side vertical beams 41 of each layer of tower, upper beams 42 and lower beams 43 of the layer of tower, and a middle beam 44 connecting the upper beams 42 and the lower beams 43.
As shown in fig. 3, rotating shafts 82 are arranged above the horizontal central axis on both sides of the plate frame 81 of the photovoltaic panel 8, the rotating shafts 82 are respectively rotatably connected with the side vertical beam 41 and the middle beam 44 of the quadrilateral frame 4, and a counterweight 83 is arranged above the horizontal central axis on the surface of the photovoltaic panel 8 facing the tower body.
The connecting point of the middle beam 44 and the lower beam 43 is respectively provided with a reinforcing rod 5 towards the other two beams which form a triangular frame with the beams, the upper beam body of the connecting point of the middle beam 44 and the lower beam 43 is respectively provided with an inclined reinforcing rod 6, and the other ends of the two inclined reinforcing rods 6 are connected with the rod body of the reinforcing rod 5.
In the world known by human beings, solar energy is an environment-friendly natural energy source, and people have developed greatly in the aspect of utilizing solar energy to generate electricity for years, but the large-scale development of solar photovoltaic panel electricity generation at the present stage meets the bottleneck that the laying area occupies a large amount of land. Photovoltaic power generation is utilized in vast deserts such as northwest, and because the transmission line is too long, the transmission cost is high, and the line loss is large; and in the middle east, the land area is small, and the photovoltaic panels installed on the roofs of rural areas or enterprises are scattered too much to generate electricity, so that the power generation management is not facilitated. The structure designed in the embodiment has the advantages that: 1. adopt triangular pagoda shape to with the fretwork support body, the structure is very safe firm, and the design of can swinging of photovoltaic board frame construction can be put away the wind naturally when high wind speed, ensures safety, and the tower body can be made 70 meters even higher, thereby has improved tens of times's daylighting area, even install in the farmland, can not influence the illumination requirement of crop yet. 2. The vertical wind driven generator is arranged on the upper part of the tower body, high wind power generation can be better utilized, and the photovoltaic power generation needs to be limited by illumination time and the like when the sunlight irradiates, so that the wind power generation has good complementary effect on the photovoltaic power generation, 3-5 vertical shaft wind driven generators of 30KW can be arranged on the upper part, and a 20KW vertical wind driven generator can be designed below the vertical shaft wind driven generator.
Example 2
As another design, as shown in fig. 4, two tower bodies 1 are arranged, a gap is left between the two tower bodies 1, the surfaces of the quadrilateral frames 4 are connected through an auxiliary frame 7, and the surface of the auxiliary frame 7 is used for installing a photovoltaic panel.
And the auxiliary frame 7 and each layer of the tower bodies at the two sides are provided with connecting rod frames.
The embodiment is a structure that adopts when the land area space is great, and this kind of structure can form and constitute a bigger photovoltaic board installation area with square frame 4 place face and auxiliary frame 7 place face, all has wind power generation set moreover on two tower bodies, the expansion generated energy that can to a great extent.
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 (9)
1. A pagoda-shaped wind-solar hybrid power generation tower is characterized in that: including at least one tower body, the tower body has foot and body of the tower portion, and wherein the foot comprises three foot support, and the upper portion and the body of the tower portion of three foot support are connected, and the three installation foot in bottom is connected with the installation base face, and three installation foot is triangular arrangement, and body of the tower portion is connected by a plurality of layers of fretwork pylon and is constituted, sets up a plurality of quadrangle frames on arbitrary one in three faces that body of the tower portion formed, installs photovoltaic board in quadrangle frame, is close to a plurality of layers of top of the tower at body of the tower portion and sets up vertical aerogenerator.
2. The pagoda-type wind-solar hybrid power generation tower according to claim 1, wherein: the mounting foot of the foot support is simultaneously connected with one end of each of the three main support rods to form an inverted triangle three-dimensional structure.
3. The pagoda-type wind-solar hybrid power generation tower according to claim 2, wherein: the connecting part of the tower body part and the foot part is provided with a triangular frame formed by three 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 two beams in the triangular frame, and the other two main support rods are respectively connected with the rod bodies of the two beams.
4. The pagoda-type wind-solar hybrid power tower according to claim 3, wherein: and a reinforcing rod is arranged between any two of the cross beams.
5. The pagoda-type wind-solar hybrid power tower according to claim 1, wherein: the quadrilateral frame is composed of vertical side beams of each layer of tower, upper cross beams and lower cross beams of the layer of tower, and middle beams connecting the upper cross beams and the lower cross beams.
6. The pagoda-type wind-solar hybrid power tower according to claim 5, wherein: the connecting point of the middle beam and the lower beam is respectively provided with a reinforcing rod towards the other two beams which form a triangular frame with the beams, the beam body above the connecting point of the middle beam and the lower beam is respectively provided with an inclined reinforcing rod, and the other ends of the two inclined reinforcing rods are connected with the rod body of the reinforcing rod.
7. The pagoda-type wind-solar hybrid power tower according to claim 5, wherein: the top that is located horizontal axis of the sheet frame both sides of photovoltaic board sets up the pivot, and the pivot is erected roof beam and centre sill rotation with the limit of quadrangle frame respectively and is connected, at the face in the photovoltaic board towards the tower body, and is located the top installation counter weight of horizontal axis.
8. The pagoda-type wind-solar hybrid power generation tower according to claim 1, wherein: the tower body sets up two, leaves the clearance between two tower bodies, connects through the auxiliary frame between the quadrangle frame place face, and the auxiliary frame place face is used for installing the photovoltaic board.
9. The pagoda-type wind-solar hybrid power tower according to claim 8, wherein: and the auxiliary frame and each layer of the tower bodies on the two sides are provided with connecting rod frames.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202222727290.2U CN218293024U (en) | 2022-10-17 | 2022-10-17 | Pagoda type wind-solar hybrid power generation tower |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202222727290.2U CN218293024U (en) | 2022-10-17 | 2022-10-17 | Pagoda type wind-solar hybrid power generation tower |
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| Publication Number | Publication Date |
|---|---|
| CN218293024U true CN218293024U (en) | 2023-01-13 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202222727290.2U Active CN218293024U (en) | 2022-10-17 | 2022-10-17 | Pagoda type wind-solar hybrid power generation tower |
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| Country | Link |
|---|---|
| CN (1) | CN218293024U (en) |
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- 2022-10-17 CN CN202222727290.2U patent/CN218293024U/en active Active
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