CN218717240U - Wind, light, water and storage integrated machine - Google Patents

Abstract

The utility model discloses a scene water stores up all-in-one, comprises a platform, the platform is formed with the rivers passageway, be equipped with hydraulic lift type generating set and hydraulic resistance type generating set in the rivers passageway, hydraulic resistance type generating set locates two between the hydraulic lift type generating set, the top of platform is equipped with a plurality of photovoltaic boards, the below of photovoltaic board is all located to hydraulic lift type generating set and hydraulic resistance type generating set, the photovoltaic board divide into two sets ofly, and is two sets of be equipped with wind generating set between the photovoltaic board. Compared with the prior art, the utility model discloses compact structure through adding hydraulic resistance type generating set between hydraulic lift type generating set, has solved the wake phenomenon that hydraulic lift type generating set produced, makes each generating set homoenergetic reach the power generation state of ideal.

Description

Wind, light, water and storage integrated machine

Technical Field

The utility model belongs to the technical field of the energy utilization technique and specifically relates to a wind, light, water and storage all-in-one machine is related to.

Background

The water energy, the wind energy and the solar energy are inexhaustible and renewable clean energy, and the power generation by utilizing the water energy, the wind energy and the solar energy has the advantages of renewable energy, low power generation cost and no pollution. In the process of generating power by using water energy, compared with a hydraulic resistance type generator set, the hydraulic lift type generator set has high power generation efficiency, so that the hydraulic lift type generator set is generally used for generating power. In order to reduce the installation cost and the installation difficulty, a single type of power generation equipment is generally selected when water energy is used for power generation. The hydraulic lift type generator set is a high-efficiency power generation device for generating power by utilizing hydraulic energy kinetic energy, in order to generate power by utilizing the hydraulic energy kinetic energy more fully, a plurality of hydraulic lift type generator sets are sequentially arranged along the water flowing direction, however, the fact that the front hydraulic lift type generator set A can generate wake flow and is influenced by the wake flow is found in practical tests, the power generation efficiency of the rear hydraulic lift type generator set B can be reduced, the power generation efficiency of the rear hydraulic lift type generator set C can be further reduced, namely, the wake flow effect can be superposed and amplified, and the whole power generation efficiency is seriously influenced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a scene water stores up all-in-one for solve the technical problem of the wake phenomenon that a plurality of hydraulic lift type generating set appear among the prior art.

The utility model provides a scene water stores up all-in-one, comprises a platform, the platform is formed with the rivers passageway, be equipped with hydraulic lift type generating set and hydraulic resistance type generating set in the rivers passageway, hydraulic resistance type generating set locates two between the hydraulic lift type generating set, the top of platform is equipped with a plurality of photovoltaic boards, the below of photovoltaic board is all located to hydraulic lift type generating set and hydraulic resistance type generating set, the photovoltaic board divide into two sets ofly, and is two sets of be equipped with wind generating set between the photovoltaic board.

Preferably, the wind generating set comprises a wind blade rotating mechanism and a telescopic tower rod capable of driving the wind blade rotating mechanism to the position below the photovoltaic panel.

Preferably, an energy storage mechanism is further arranged in the platform and used for balancing the difference between the total power generation amount of the hydraulic lift type generator set, the hydraulic resistance type generator set, the photovoltaic panel and the wind generating set and the preset power transmission amount.

Preferably, the number of the wind generating sets is two, the two wind generating sets are respectively located on two sides of the platform, and when the wind blade rotating mechanisms are located above the photovoltaic panel, the two blade rotating mechanisms are distributed in a vertically staggered mode.

Preferably, the telescopic tower pole comprises an electric hydraulic pole and a support rod capable of sliding up and down, a piston rod of the electric hydraulic pole is fixedly connected with the support rod at the top end of the telescopic tower pole, the upper end of the support rod at the top end of the telescopic tower pole is fixedly connected with the wind power blade rotating mechanism, and the electric hydraulic pole is fixed on the platform.

Preferably, the number of the supporting rods of one wind generating set is two, and the number of the supporting rods of the other wind generating set is three.

Preferably, the wind blade rotating mechanism includes: the wind power generation device comprises two wind power generation blades, a wind power blade hub, a wind power long shaft and a wind power generator, wherein the wind power generation blades are arranged on the outer surface of the wind power blade hub, the wind power long shaft is fixed with the wind power blade hub, and the wind power long shaft is fixed with a main shaft of the wind power generator.

Preferably, the hydraulic lift type generator set comprises a plurality of hydraulic blade rotating mechanisms distributed along the width direction of the platform, the hydraulic blade rotating mechanisms are connected with a vertical shaft through a reversing mechanism, the vertical shafts are respectively connected with a main shaft of the hydraulic generator through a transmission mechanism, and the vertical shaft is rotatably connected with the platform.

Preferably, the number of the hydraulic blade rotating mechanisms is three, the three vertical shafts are linearly distributed, the middle vertical shaft is fixed with a main shaft of the hydraulic generator, and the middle vertical shaft is respectively connected with the other two vertical shafts through a transmission mechanism.

Preferably, the reversing mechanism further comprises: the hydraulic vane rotating mechanism comprises a reversing motor, a first reversing gear and a second reversing gear, wherein the first reversing gear is fixedly connected with a reversing rod, the first reversing gear is meshed with the second reversing gear, the reversing rod is rotatably connected with the platform, the reversing rod is coaxially arranged with a vertical shaft, the reversing rod is connected with a hydraulic vane rotating mechanism, and the reversing motor drives the second reversing gear to rotate so as to drive the reversing rod to rotate.

Preferably, the hydraulic resistance type generator set includes: the pivot, follow the circumferencial direction interval of pivot sets up change epaxial a plurality of mounting brackets and install the first blade on each mounting bracket, the pivot is connected to first generator through drive mechanism, the one end of first blade is connected at the mounting bracket that corresponds for the outermost fringe position of pivot, is provided with the stiffener between the adjacent first blade, the middle part at one of them first blade in the adjacent first blade is connected to the one end of stiffener, the mounting bracket that another first blade in the adjacent first blade corresponds is connected for the outermost fringe position of pivot to the other end of stiffener.

Preferably, the energy storage mechanism comprises a storage battery and a charging module, and when the total power generation amount of the hydraulic lift type generator set, the hydraulic resistance type generator set, the photovoltaic panel and the wind generating set is greater than the preset power transmission amount, the hydraulic lift type generator set, the hydraulic resistance type generator set, the photovoltaic panel and the wind generating set charge the storage battery through the charging module; when the total power generation amount of the hydraulic lift type generator set, the hydraulic resistance type generator set, the photovoltaic panel and the wind generating set is less than the preset power transmission amount, the sum of the electric quantity output by the storage battery and the actual power generation amount is equal to the preset power transmission amount; the storage battery provides power for the electric hydraulic rod.

Compared with the prior art, the utility model discloses compact structure through adding hydraulic resistance type generating set between hydraulic lift type generating set, has solved the wake phenomenon that hydraulic lift type generating set produced, makes each generating set homoenergetic reach the power generation state of ideal.

Drawings

In order to more clearly illustrate the technical solutions of the present invention or the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of the present invention;

fig. 2 is a right side view of the present invention;

fig. 3 is a front view of the present invention.

Reference numerals:

1. the wind power generation system comprises a platform, 11 water flow channels, 2 hydraulic lift type generator sets, 3 hydraulic resistance type generator sets, 4 photovoltaic panels, 5 wind power generator sets, 6 first supports, 7.U type bottom plates, 21 hydraulic blade rotating mechanisms, 22 reversing mechanisms, 23 vertical shafts, 211 hydraulic power generation blades, 212 hydraulic blade hubs, 31 rotating shafts, 32 mounting frames, 33 first blades, 34 reinforcing rods, 51 wind power blade rotating mechanisms, 52 telescopic tower rods, 521 electric hydraulic rods, 522 supporting rods, 511 wind power generation blades, 512 wind power blade hubs and 513 wind power generators.

Detailed Description

To make the objects, technical solutions and advantages of the present invention clearer, the drawings in the present invention will be combined to clearly and completely describe the technical solutions of the present invention, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to the attached figure 1, the wind, light, water and storage integrated machine comprises a platform 1, wherein a water flow channel 11 is formed in the platform 1, a hydraulic lift type generator set 2 and a hydraulic resistance type generator set 3 are arranged in the water flow channel 11, the hydraulic resistance type generator set 3 is arranged between the two hydraulic lift type generator sets 2, the hydraulic resistance type generator set 3 can eliminate a wake phenomenon generated by the front hydraulic lift type generator set 2, so that the power generation efficiency of the rear hydraulic lift type generator set 2 is ensured, a plurality of photovoltaic panels 4 are arranged above the platform 1, the hydraulic lift type generator set 2 and the hydraulic resistance type generator set 3 are both arranged below the photovoltaic panels 4, the photovoltaic panels 4 are divided into two groups, a wind generating set 5 is arranged between the two groups of photovoltaic panels 4, the wind generating set 5 comprises a wind blade rotating mechanism 51 and a telescopic tower rod 52 capable of driving the wind blade rotating mechanism 51 to be below the photovoltaic panels 4, and under the good day illumination condition on a river under the normal condition, the wind power is small; the illumination condition is poor at night, and the wind power is large. Therefore, when the sun exists, the wind blade rotating mechanism 51 is descended below the photovoltaic panel 4 through the telescopic tower rod 52, and the hot spot effect is avoided when the solar energy is fully utilized for power generation. When sunlight does not exist, the telescopic tower rod 52 lifts the wind blade rotating mechanism 51 to the upper part of the photovoltaic panel 4 to perform wind power generation. The setting can be set by time, for example, the photovoltaic panel 4 generates electricity in the daytime, and the wind generating set 5 generates electricity at night. Certainly, the wind power generation device can also be arranged through an illumination sensor, when the illumination sensor detects sunlight, the photovoltaic panel 4 generates power, and when the illumination sensor does not detect sunlight, the wind power blade rotating mechanism 51 generates power; an energy storage mechanism is further arranged in the platform 1 and used for balancing the difference between the total power generation amount of the hydraulic lift type generator set 2, the hydraulic resistance type generator set 3, the photovoltaic panel 4 and the wind generating set 5 and the preset power transmission amount. Wind energy and light energy are used for generating electricity in turn, and are greatly influenced by illumination conditions and wind conditions, so that the total power generation amount A of the hydraulic lift type generator set 2, the hydraulic resistance type generator set 3, the photovoltaic panel 4 and the wind generator set 5 is unstable, and in order to ensure that a grid runs normally after grid connection, the utility model discloses to be connected to the grid with preset power transmission amount, when the total power generation amount A is more than the preset power transmission amount, redundant electric quantity can be stored in the energy storage mechanism; when the total power generation amount A is smaller than the preset power transmission amount, the energy storage mechanism outputs electric quantity to ensure that grid connection can be carried out at the preset power transmission amount.

Specifically, the platform 1 may be a hull structure or a frame structure.

The number of the wind generating sets 5 is two, the two wind generating sets 5 are respectively positioned at two sides of the platform 1, when the wind blade rotating mechanisms 51 are positioned above the photovoltaic panel 4, the two wind blade rotating mechanisms 51 are distributed in a vertically staggered mode, and the space above the photovoltaic panel 4 can be utilized as much as possible by the arrangement.

Referring to fig. 2, the telescopic tower 52 includes an electric hydraulic rod 521 and a support rod 522 sliding up and down, a piston rod of the electric hydraulic rod 521 is fixedly connected to the support rod 522 at the top end of the telescopic tower 52, an upper end of the support rod 522 at the top end of the telescopic tower 52 is fixedly connected to the wind blade rotating mechanism 51, and the electric hydraulic rod 521 is fixed to the platform 1. The telescopic tower 52 may also be one of a pneumatic type, a hydraulic type, a scissor type, and a mechanical tower type to realize the up-and-down sliding of the support rod 522.

The number of the support rods 522 of one wind turbine generator system 5 is two, and the number of the support rods 522 of the other wind turbine generator system 5 is three, so that the two wind blade rotating mechanisms 51 can be vertically staggered.

Specifically, the wind blade rotating mechanism 51 includes: the wind power generation device comprises two wind power generation blades 511, a wind power blade hub 512, a wind power long shaft and a wind power generator 513, wherein the wind power generation blades 511 are arranged on the outer surface of the wind power blade hub 512, the wind power long shaft is fixed with the wind power blade hub 512, and the wind power long shaft is fixed with a main shaft of the wind power generator 513.

The hydraulic lift type generator set 2 comprises a plurality of hydraulic blade rotating mechanisms 21 distributed along the width direction of the platform 1, the hydraulic blade rotating mechanisms 21 are connected with vertical shafts 23 through reversing mechanisms 22, the vertical shafts 23 are respectively connected with a main shaft of a hydraulic generator through transmission mechanisms, and the vertical shafts 23 are rotatably connected with the platform 1.

Three hydraulic blade rotating mechanisms 21 are provided, three vertical shafts 23 are linearly distributed, the middle vertical shaft 23 is fixed with a main shaft of the hydraulic generator, and the middle vertical shaft 23 is respectively connected with the other two vertical shafts 23 through a transmission mechanism.

The hydraulic blade rotating mechanism 21 includes: the hydraulic power generation device comprises at least two hydraulic power generation blades 211, a hydraulic power blade hub 212 and a transverse shaft, wherein the hydraulic power generation blades 211 are arranged on the outer surface of the hydraulic power blade hub 212, the transverse shaft is fixedly connected with the hydraulic power blade hub 212, and the transverse shaft is connected with a steering mechanism.

The steering mechanism comprises a first bevel gear and a second bevel gear, the first bevel gear is fixedly connected with the cross shaft, the second bevel gear is fixedly connected with the vertical shaft 23, and the first bevel gear is meshed with the second bevel gear.

This embodiment also includes a reversing mechanism 22, and reversing mechanism 22 includes: the hydraulic blade rotating mechanism comprises a reversing motor, a first reversing gear and a second reversing gear, wherein the first reversing gear is fixedly connected with a reversing rod, the first reversing gear is meshed with the second reversing gear, the reversing rod is rotatably connected with the platform 1, the reversing rod is coaxially arranged with a vertical shaft 23 and is connected with the hydraulic blade rotating mechanism 21, specifically, the reversing rod is connected with a hydraulic blade hub 212 through a shell, a transverse shaft is rotatably arranged in the shell, or the hydraulic blade hub 212 is rotatably connected with the reversing rod, and the reversing motor drives the second reversing gear to rotate so as to drive the reversing rod to rotate. By arranging the reversing mechanism 22, the wind, light, water and storage all-in-one machine can be applied to tidal current environments.

Referring to fig. 3, specifically, the hydraulic resistance type generator set 3 includes: the wind power generation device comprises a rotating shaft 31, a plurality of mounting frames 32 arranged on the rotating shaft 31 at intervals in the circumferential direction of the rotating shaft 31, and first blades 33 mounted on each mounting frame 32, wherein the rotating shaft 31 is connected to a first generator through a transmission mechanism, one end of each first blade 33 is connected to the outermost edge of the corresponding mounting frame 32 relative to the rotating shaft 31, a reinforcing rod 34 is arranged between the adjacent first blades 33, one end of each reinforcing rod 34 is connected to the middle of one first blade 33 of the adjacent first blades 33, and the other end of each reinforcing rod 34 is connected to the outermost edge of the mounting frame 32 relative to the rotating shaft 31 of the other first blade 33 of the adjacent first blades 33.

Specifically, the energy storage mechanism comprises a storage battery and a charging module, and when the total power generation amount of the hydraulic lift type generator set 2, the hydraulic resistance type generator set 3, the photovoltaic panel 4 and the wind generating set 5 is greater than the preset power transmission amount, the hydraulic lift type generator set 2, the hydraulic resistance type generator set 3, the photovoltaic panel 4 and the wind generating set 5 charge the storage battery through the charging module; when the total power generation amount of the hydraulic lift type generator set 2, the hydraulic resistance type generator set 3, the photovoltaic panel 4 and the wind generating set 5 is less than the preset power transmission amount, the sum of the electric quantity output by the storage battery and the actual power generation amount is equal to the preset power transmission amount; the battery provides power to the electro-hydraulic stem 521.

Specifically, the transmission mechanism is a belt transmission mechanism or a chain transmission mechanism.

Specifically, the hydraulic lift type generator set 2 is fixed on the platform 1 through a first support 6, and a U-shaped bottom plate 7 is arranged at the bottom of the first support 6. Photovoltaic board 4 is fixed on platform 1 through the second support, and the upper end of second support is fixed with the mounting panel, and photovoltaic board 4 is located the top of mounting panel, and the intermediate position department of mounting panel opens has the through-hole to pass when making things convenient for wind-force blade rotary mechanism 51 to go up and down. Of course, the wind turbine generator system 5 may be disposed at one or more of the front, rear, and both sides of the mounting plate without providing the through-hole.

The utility model discloses an add hydraulic resistance type generating set 3 between hydraulic lift type generating set 2, solved the wake phenomenon that hydraulic lift type generating set 2 produced, make each generating set homoenergetic reach the power state of ideal. When sunlight is present, the photovoltaic panel 4 generates power, and the wind blade rotating mechanism 51 is lowered below the photovoltaic panel 4, so that shadows are prevented from being generated on the photovoltaic panel 4. When sunlight does not exist, the wind blade rotating mechanism 51 is lifted above the photovoltaic panel 4, so that the wind generating set 5 generates power. The total power generation amount of the photovoltaic panel 4 and the wind generating set 5 is greatly fluctuated by the alternate power generation influence of the photovoltaic panel and the wind generating set and the influence of water flow, illumination and wind power natural conditions, so that an energy storage mechanism is arranged for balancing, and the stable operation of a power grid is ensured during grid connection. When the total amount of electricity generation A is less than the predetermined amount of electricity, the amount of electricity is output from the energy storage mechanism to ensure that electricity is delivered at the predetermined amount of electricity. When the total amount of electricity generated a is larger than the predetermined amount of electric power transmission, the excess amount of electricity is stored in the energy storage mechanism when the electric power is transmitted at the predetermined amount of electric power transmission.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (10)

1. The wind, light, water and storage integrated machine is characterized by comprising a platform, wherein a water flow channel is formed in the platform, a hydraulic lift type generator set and a hydraulic resistance type generator set are arranged in the water flow channel, the hydraulic resistance type generator sets are arranged between the hydraulic lift type generator sets, a plurality of photovoltaic plates are arranged above the platform, the hydraulic lift type generator set and the hydraulic resistance type generator set are arranged below the photovoltaic plates, the photovoltaic plates are divided into two groups, and a wind generating set is arranged between the two groups of photovoltaic plates.

2. The wind, light, water and storage integrated machine according to claim 1, wherein the wind generating set comprises a wind blade rotating mechanism and a telescopic tower rod capable of driving the wind blade rotating mechanism to be below the photovoltaic panel.

3. The wind, light, water and storage integrated machine as claimed in claim 2, wherein an energy storage mechanism is further arranged in the platform and used for balancing the difference between the total power generation amount of the hydraulic lift type generator set, the hydraulic resistance type generator set, the photovoltaic panel and the wind generating set and the preset power transmission amount.

4. The wind, light, water and storage integrated machine according to claim 2 is characterized in that the number of the wind generating sets is two, the two wind generating sets are respectively positioned on two sides of the platform, and when the wind blade rotating mechanisms are positioned above the photovoltaic panel, the two wind blade rotating mechanisms are distributed in a vertically staggered manner.

5. The wind, light, water and storage integrated machine according to claim 4, wherein the telescopic tower rod comprises an electric hydraulic rod and a support rod capable of sliding up and down, a piston rod of the electric hydraulic rod is fixedly connected with the support rod at the top end of the telescopic tower rod, the upper end of the support rod at the top end of the telescopic tower rod is fixedly connected with the wind blade rotating mechanism, and the electric hydraulic rod is fixed on the platform.

6. The wind, solar, water and storage integrated machine as claimed in claim 5, wherein the number of the supporting rods of one wind generating set is two, and the number of the supporting rods of the other wind generating set is three.

7. The wind, solar and water storage all-in-one machine is characterized in that the wind blade rotating mechanism comprises: the wind power generation device comprises two wind power generation blades, a wind power blade hub, a wind power long shaft and a wind power generator, wherein the wind power generation blades are arranged on the outer surface of the wind power blade hub, the wind power long shaft is fixed with the wind power blade hub, and the wind power long shaft is fixed with a main shaft of the wind power generator.

8. The wind, light, water and storage integrated machine according to claim 1 is characterized in that the hydraulic lift type generator set comprises a plurality of hydraulic blade rotating mechanisms distributed along the width direction of the platform, the hydraulic blade rotating mechanisms are connected with vertical shafts through reversing mechanisms, the vertical shafts are respectively connected with a main shaft of the hydraulic generator through transmission mechanisms, and the vertical shafts are rotatably connected with the platform.

9. The wind, light, water and storage integrated machine according to claim 8 is characterized in that the number of the hydraulic blade rotating mechanisms is three, the three vertical shafts are linearly distributed, the middle vertical shaft is fixed with a main shaft of a hydraulic generator, and the middle vertical shaft is respectively connected with the other two vertical shafts through a transmission mechanism.

10. The wind, light, water and storage all-in-one machine of claim 1, wherein the hydraulic resistance type generator set comprises: the pivot, follow the circumferencial direction interval of pivot sets up change epaxial a plurality of mounting brackets and install the first blade on each mounting bracket, the pivot is connected to first generator through drive mechanism, the one end of first blade is connected at the mounting bracket that corresponds for the outermost fringe position of pivot, is provided with the stiffener between the adjacent first blade, the middle part at one of them first blade in the adjacent first blade is connected to the one end of stiffener, the mounting bracket that another first blade in the adjacent first blade corresponds is connected for the outermost fringe position of pivot to the other end of stiffener.

Images