CN113922742A - Solar energy distributing type power station - Google Patents

Abstract

The invention relates to the technical field of solar power generation, in particular to a solar distributed power station; the top installation conversion subassembly through the mounting panel, the conversion subassembly converts light energy into the electric energy, the bottom at the mounting panel is installed to the articulated slab, the both ends of rotating the head are passed through the bearing and are connected with the articulated slab, and then supply the articulated slab to connect, the spliced pole is connected with the rotation head, prop up and play the rotation head, the quantity of adjusting part is 2 at least, install the both sides at the mounting panel respectively relatively, one of them adjusting part drives one side of mounting panel and risees, another adjusting part drives the opposite side of mounting panel and reduces, wherein the articulated slab plays supplementary regulatory action, and then realize the angle modulation of conversion subassembly, make its better received light energy, the removal subassembly of telling is convenient for remove the conversion subassembly, and then make its received light energy that can be better, make electric energy conversion efficiency higher.

Description

Solar energy distributing type power station

Technical Field

The invention relates to the technical field of solar power generation, in particular to a solar distributed power station.

Background

The solar distributed power station refers to a distributed power generation system which adopts photovoltaic components and directly converts solar energy into electric energy, follows the principles of local conditions, cleanness, high efficiency, scattered layout and near utilization, fully utilizes local solar energy resources and replaces and reduces fossil energy consumption.

Because the solar cell panel in the photovoltaic module depends on sunlight to convert the light energy of the sunlight into electric energy, the received light energy directly influences the power generation efficiency. The existing solar distributed power station has a complex structure, the angle of the solar panel is inconvenient to adjust, the light energy received by the solar panel is limited, and the electric energy conversion efficiency is not high.

Disclosure of Invention

The invention aims to provide a solar distributed power station, and aims to solve the technical problems that the angle of a solar panel in the prior art is inconvenient to adjust, so that the light energy received by the solar panel is limited, and the electric energy conversion efficiency is low.

In order to achieve the purpose, the invention adopts a solar distributed power station which comprises a mounting plate, a conversion component, a hinged plate, a rotating head, a connecting column, an adjusting component and a moving component;

the switching module with the connection can be dismantled to the mounting panel, the articulated slab in mounting panel fixed connection, and be located the bottom of mounting panel, rotate the head with the articulated slab rotates to be connected, and is located the articulated slab is kept away from one side of rotating the head, the spliced pole with rotate first fixed connection, and be located the head of rotating is kept away from one side of articulated slab, the adjusting part with the mounting panel is connected, the removal subassembly with spliced pole fixed connection.

The conversion component is arranged above the mounting plate and used for converting light energy into electric energy, the hinged plate is arranged at the bottom of the mounting plate, the rotating head is connected with the hinged plate and supplies the hinged plate to rotate, the connecting column supports the rotating head, the adjusting component drives the left end and the right end of the mounting plate to move up and down respectively, the hinged plate supports the mounting plate and cooperates with the mounting plate to rotate, the angle direction of the conversion component can be adjusted, light energy can be better received, the moving component is used for supporting and driving each device to move, the conversion component can be conveniently moved to a place with sufficient sunlight, and the light energy receiving effect is better.

The conversion assembly comprises a solar cell panel and a fixing clamp, wherein the solar cell panel is clamped with the mounting plate and is positioned on one side of the mounting plate, which is far away from the hinged plate; the fixing clamp is connected with the mounting plate and is positioned on one side of the mounting plate close to the solar cell panel.

The solar cell panel block is in on the mounting panel, the rethread the fixation clamp is fixed it is in on the mounting panel, and then follows the mounting panel rotates.

The adjusting assembly comprises a connecting block and a telescopic component, wherein the connecting block is connected with the mounting plate and is positioned on one side of the mounting plate, which is far away from the hinged plate; the telescopic component is connected with the connecting block.

The connecting block is connected the below of mounting panel, flexible component with the connecting block is connected, drives the connecting block reciprocates, and then drives the inclination is adjusted to the mounting panel.

The telescopic component comprises a pin shaft, an upper telescopic rod and a movable part, wherein the pin shaft is rotatably connected with the connecting block and is positioned on one side of the connecting block, which is far away from the mounting plate; the upper telescopic rod is rotatably connected with the pin shaft and is positioned on one side of the pin shaft, which is far away from the connecting block; the movable part is connected with the upper telescopic rod.

The upper telescopic rod is connected with the connecting block through the pin shaft, the movable part drives the upper telescopic rod to move up and down, and then one side of the mounting plate is driven to move up and down, so that angle adjustment is achieved, and light energy is received better.

The movable part comprises a lower telescopic rod and a power part, the lower telescopic rod is connected with the upper telescopic rod in a sliding mode and is positioned on one side, far away from the connecting block, of the upper telescopic rod; the power part is fixedly connected with the lower telescopic rod and is positioned between the lower telescopic rod and the upper telescopic rod.

The lower telescopic rod supplies the upper telescopic rod to slide, and the power part is installed in the lower telescopic rod and drives the upper telescopic rod to move up and down.

The adjusting component further comprises a sealing ring, and the sealing ring is fixedly connected with the lower telescopic rod and is positioned between the lower telescopic rod and the upper telescopic rod.

The sealing ring is positioned between the lower telescopic rod and the upper telescopic rod, so that the interior of the lower telescopic rod is kept airtight, and water resistance is facilitated.

The moving assembly comprises a rotating disc, a base and a supporting member, wherein the rotating disc is fixedly connected with the connecting column and is positioned on one side of the connecting column, which is far away from the mounting plate; the base is rotatably connected with the rotating disc and is positioned at the bottom of the rotating disc; the support member is detachably connected with the base.

The rotating disc is driven by a driving device such as a motor and the like, rotates on the base, supports the connecting column and the adjusting assembly, further drives the solar cell panel to rotate, enables the solar cell panel to receive light energy, and supports the base by the supporting member.

The solar distributed power station of the invention is characterized in that the conversion component is arranged above the mounting plate, the conversion component converts light energy into electric energy, the hinged plates are arranged at the bottom of the mounting plate, two ends of the rotating head are connected with the hinged plates through bearings so as to be connected with the hinged plates, the connecting column is connected with the rotating head to support the rotating head, the number of the adjusting components is at least 2, the adjusting components are respectively and oppositely arranged at two sides of the mounting plate, one of the adjusting components drives one side of the mounting plate to be lifted, the other adjusting component drives the other side of the mounting plate to be lowered, the hinged plates play an auxiliary adjusting role, further angle adjustment of the conversion component is realized, the conversion component can better receive light energy, and the moving component is convenient to move the conversion component, therefore, the solar photovoltaic power generation device can better receive light energy and promote higher electric energy conversion efficiency.

Drawings

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

Fig. 1 is a schematic structural diagram of a solar distributed power station of the present invention.

Fig. 2 is a schematic structural diagram of the conversion assembly of the present invention.

Fig. 3 is a cross-sectional view of a solar distributed power station of the present invention.

Fig. 4 is a schematic view of the internal structure of the lower telescopic rod of the present invention.

Fig. 5 is an enlarged view of fig. 4 at a of the present invention.

The solar power generation device comprises a 1-mounting plate, a 2-hinged plate, a 3-rotating head, a 4-connecting column, a 10-conversion assembly, a 11-solar panel, a 12-fixing clamp, a 20-adjusting assembly, a 21-connecting block, a 22-telescopic member, a 23-sealing ring, a 30-moving assembly, a 31-rotating disc, a 32-base, a 33-supporting member, a 34-hydraulic rod, a 35-universal pulley, a 100-solar distributed power station, a 221-pin shaft, a 222-upper telescopic rod, a 223-movable part, a 331-cup seat, a 332-fixing nut, a 2231-lower telescopic rod and a 2232-power part.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 5, the present invention provides a solar distributed power station 100, which includes a mounting plate 1, a converting assembly 10, a hinge plate 2, a rotating head 3, a connecting column 4, an adjusting assembly 20 and a moving assembly 30;

the conversion subassembly 10 with the connection can be dismantled to mounting panel 1, articulated slab 2 in mounting panel 1 fixed connection, and be located the bottom of mounting panel 1, rotate the head 3 with articulated slab 2 rotates to be connected, and is located articulated slab 2 keeps away from one side of rotating head 3, spliced pole 4 with rotate first 3 fixed connection, and be located rotate first 3 and keep away from one side of articulated slab 2, adjusting part 20 with mounting panel 1 connects, remove the subassembly 30 with spliced pole 4 fixed connection.

In this embodiment, the conversion assembly 10 is installed above the mounting plate 1, the conversion assembly 10 converts light energy into electric energy, the hinge plate 2 is installed at the bottom of the mounting plate 1, two ends of the rotating head 3 are connected with the hinge plate 2 through bearings, so that the hinge plate 2 rotates, the connecting column 4 is connected with the rotating head 3 and supports the rotating head 3, the adjusting assemblies 20 are installed at the bottom of the mounting plate 1, the number of the adjusting assemblies is at least 2, the adjusting assemblies are respectively and oppositely located at the left side and the right side of the mounting plate 1, one of the adjusting assemblies 20 drives one side of the mounting plate 1 to move upwards, the other adjusting assembly 20 drives the other side of the mounting plate 1 to move downwards, wherein the hinge plate 2 rotates on the rotating head 3 to assist in moving the mounting plate 1, furthermore, the angle adjustment of the mounting plate 1 is realized, namely the angle adjustment of the conversion assembly 10 is realized, so that the conversion assembly can better receive light energy, meanwhile, a photosensitive sensor can be arranged on the mounting plate 1, the height adjustment of the adjustment assembly 20 is automatically controlled through the light induction of the photosensitive sensor, so that the function of automatically adjusting the angle of the mounting plate 1 is realized, the conversion assembly 10 can better receive light energy, the moving assembly 30 is used for supporting and driving the whole device to move, the transfer assembly can be conveniently moved to the environment with good illumination effect, and the transfer assembly can better receive light energy, so that the electric energy conversion efficiency is higher.

Further, referring to fig. 1 to 4, the conversion assembly 10 includes a solar cell panel 11 and a fixing clip 12, wherein the solar cell panel 11 is fastened to the mounting plate 1 and is located on a side of the mounting plate 1 away from the hinge plate 2; the fixing clamp 12 is connected with the mounting plate 1 and is positioned at one side of the mounting plate 1 close to the solar cell panel 11.

In this embodiment, the model of the solar cell panel 11 is M80, the mounting panel 1 is provided with a groove matched with the solar cell panel 11, and then the solar cell panel 11 is clamped and mounted above the mounting panel 1, the fixing clamp 12 is PYT100, and mainly comprises a G-shaped fixing seat and an L-shaped clamping seat matching screw, a nut and a fixing hook, so as to fix the solar cell panel 11, and the fixing clamp is mounted on the mounting panel 1 through a bolt, so as to clamp and fix the solar cell panel 11 on the mounting panel 1, and further facilitate the solar cell panel 11 to follow the mounting panel 1 to adjust the angle, so that the solar cell panel can better receive light energy, and the electric energy conversion efficiency is higher.

Further, referring to fig. 1 and 2, the adjusting assembly 20 includes a connecting block 21 and a telescopic member 22, wherein the connecting block 21 is connected to the mounting plate 1 and is located on a side of the mounting plate 1 away from the hinge plate 2; the telescopic member 22 is connected to the connection block 21.

Further, referring to fig. 1, fig. 2, fig. 4 and fig. 5, the telescopic member 22 includes a pin 221, an upper telescopic rod 222 and a movable component 223, the pin 221 is rotatably connected to the connecting block 21 and is located on a side of the connecting block 21 away from the mounting plate 1; the upper telescopic rod 222 is rotatably connected with the pin shaft 221 and is positioned on one side of the pin shaft 221, which is far away from the connecting block 21; the movable member 223 is connected to the upper expansion link 222.

Further, referring to fig. 1 to 5, the movable part 223 includes a lower telescopic rod 2231 and a power part 2232, the lower telescopic rod 2231 is slidably connected to the upper telescopic rod 222 and is located on a side of the upper telescopic rod 222 away from the connecting block 21; the power part 2232 is fixedly connected to the lower telescopic rod 2231 and is located between the lower telescopic rod 2231 and the upper telescopic rod 222.

Further, referring to fig. 5, the adjusting assembly 20 further includes a sealing ring 23, and the sealing ring 23 is fixedly connected to the lower telescopic rod 2231 and is located between the lower telescopic rod 2231 and the upper telescopic rod 222.

In this embodiment, the connecting blocks 21 are installed at the bottom of the mounting plate 1 through bolts, the number of the connecting blocks is at least 2, the connecting blocks are respectively and relatively distributed on two sides of the mounting plate 1, the pin shaft 221 penetrates through the connecting blocks 21 and is rotatably connected with the upper telescopic rod 222, the lower telescopic rod 2231 is sleeved on the outer side of the upper telescopic rod 222 and is matched with the upper telescopic rod 222 for the upper telescopic rod 222 to slide, the power part 2232 is an electric push rod with a model of XY100 and is fixed inside the lower telescopic rod 2231, and one telescopic end of the power part is connected with the upper telescopic rod 222, so as to drive the upper telescopic rod 222 to move up and down in the lower telescopic rod 2231, so as to drive one side of the mounting plate 1 to move up and down, when one side of the mounting plate 1 moves up, the power part 2232 on the other side drives the upper telescopic rod 222 to move down, further, the angle adjustment of the mounting plate 1, that is, the scheduling adjustment of the solar cell panel 11, may be performed simultaneously, a photosensitive sensor may be installed on the mounting plate 1, so as to automatically adjust the angle of the solar cell panel 11, so that the solar cell panel can better receive light energy, and the electric energy conversion efficiency is improved, the sealing ring 23 is made of rubber, is fixedly connected to the lower telescopic rod 2231, and is located between the lower telescopic rod 2231 and the upper telescopic rod 222, so as to ensure the sealing performance in the lower telescopic rod 2231, achieve a waterproof effect, and further improve the use effect.

Further, referring to fig. 1 to 4, the moving assembly 30 includes a rotating disc 31, a base 32 and a supporting member 33, wherein the rotating disc 31 is fixedly connected to the connecting column 4 and is located on a side of the connecting column 4 away from the mounting plate 1; the base 32 is rotatably connected with the rotating disc 31 and is positioned at the bottom of the rotating disc 31; the support member 33 is detachably connected to the base 32.

Further, referring to fig. 1 and 2, the supporting member 33 includes a cup 331 and a fixing nut 332, the cup 331 is rotatably connected to the base 32 and is located on a side of the base 32 away from the rotating disc 31; the fixing nut 332 is screwed on the cup 331 and is located on a side of the cup 331 close to the base 32.

Further, referring to fig. 1, 3 and 4, the moving assembly 30 further includes a hydraulic rod 34 and a universal pulley 35, wherein the hydraulic rod 34 is fixedly connected to the base 32 and is located at the bottom of the base 32; the universal pulley 35 is fixedly connected with the hydraulic rod 34 and is located on one side of the hydraulic rod 34 far away from the base 32.

In this embodiment, the rotating disc 31 supports the connecting column 4 and the lower telescopic rod 2231, is disposed in cooperation with the base 32, can rotate on the base 32, and is driven by a driving device such as a motor disposed on the base 32 to rotate, so as to drive the connecting column 4 and the lower telescopic rod 2231 to rotate, so as to enable the solar panel 11 to rotate and to better receive light energy, the cup 331 is screwed on the base 32, is used for contacting the ground, and has a plurality of numbers, and is respectively distributed at the bottom of the base 32 in parallel, so as to enable the base 32 to be more stably supported, the fixing nut 332 is sleeved on the outer side of the cup 331 and is screwed on the cup 331 to abut against the base 32, so that the cup 331 is more stably connected with the base 32, so as to enable the support to be more stable, the hydraulic rod 34 is of ODYQ type, install base 32's bottom, flexible one end with universal pulley 35 fixed connection, and universal pulley 35's quantity is a plurality of, drives universal pulley 35 reciprocates, returns when not using, utilizes cup 331 supports, makes the support more firm, is favorable to solar cell panel 11's use, when needs remove, is controlled by external controller hydraulic stem 34 stretches out, drives universal pulley 35 contacts to the earth, and then utilizes universal pulley 35, conveniently removes base 32 makes solar cell panel 11 is in best illumination environment, makes electric energy conversion efficiency higher, simultaneously, can also be through rotating fixation nut 332 with cup 331 makes cup 331 stretches up, utilizes universal pulley 35 contacts to the earth and slides, and it is more convenient to remove, and the result of use is better.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. A solar distributed power station is characterized by comprising a mounting plate, a conversion assembly, a hinged plate, a rotating head, a connecting column, an adjusting assembly and a moving assembly;

the switching module with the connection can be dismantled to the mounting panel, the articulated slab in mounting panel fixed connection, and be located the bottom of mounting panel, rotate the head with the articulated slab rotates to be connected, and is located the articulated slab is kept away from one side of rotating the head, the spliced pole with rotate first fixed connection, and be located the head of rotating is kept away from one side of articulated slab, the adjusting part with the mounting panel is connected, the removal subassembly with spliced pole fixed connection.

2. The solar distributed power station of claim 1,

the conversion assembly comprises a solar cell panel and a fixing clamp, the solar cell panel is clamped with the mounting plate and is positioned on one side of the mounting plate, which is far away from the hinged plate; the fixing clamp is connected with the mounting plate and is positioned on one side of the mounting plate close to the solar cell panel.

3. The solar distributed power station of claim 1,

the adjusting assembly comprises a connecting block and a telescopic component, and the connecting block is connected with the mounting plate and is positioned on one side of the mounting plate, which is far away from the hinged plate; the telescopic component is connected with the connecting block.

4. Solar distributed power station as claimed in claim 3,

the telescopic component comprises a pin shaft, an upper telescopic rod and a movable part, and the pin shaft is rotatably connected with the connecting block and is positioned on one side of the connecting block, which is far away from the mounting plate; the upper telescopic rod is rotatably connected with the pin shaft and is positioned on one side of the pin shaft, which is far away from the connecting block; the movable part is connected with the upper telescopic rod.

5. Solar distributed power station as claimed in claim 4,

the movable part comprises a lower telescopic rod and a power part, the lower telescopic rod is connected with the upper telescopic rod in a sliding mode and is positioned on one side, far away from the connecting block, of the upper telescopic rod; the power part is fixedly connected with the lower telescopic rod and is positioned between the lower telescopic rod and the upper telescopic rod.

6. Solar distributed power station as claimed in claim 5,

the adjusting component further comprises a sealing ring, and the sealing ring is fixedly connected with the lower telescopic rod and is positioned between the lower telescopic rod and the upper telescopic rod.

7. The solar distributed power station of claim 1,

the moving assembly comprises a rotating disc, a base and a supporting member, the rotating disc is fixedly connected with the connecting column and is positioned on one side of the connecting column, which is far away from the mounting plate; the base is rotatably connected with the rotating disc and is positioned at the bottom of the rotating disc; the support member is detachably connected with the base.

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