CN113280518B

CN113280518B - Energy-saving solar bracket for efficiently collecting solar energy

Info

Publication number: CN113280518B
Application number: CN202110595785.1A
Authority: CN
Inventors: 蔡潇亿
Original assignee: Xiamen Solar First Energy Technology Co ltd
Current assignee: Xiamen Solar First Energy Technology Co ltd
Priority date: 2021-05-29
Filing date: 2021-05-29
Publication date: 2022-07-12
Anticipated expiration: 2041-05-29
Also published as: CN113280518A

Abstract

The invention relates to the technical field of new energy, and discloses an energy-saving solar bracket for efficiently collecting solar energy. This energy-conserving type solar rack that carries out high efficiency collection to solar energy drives first commentaries on classics cover and the synchronous rotation of second commentaries on classics cover through the rotation that drives gear mechanism, and make first ejector pin and second ejector pin rotate and drive first slider and second slider and slide along the spout that first pendulum rod and second pendulum rod surface were seted up, drive the rotation of second pendulum rod with this, and carry out angle modulation to the solar photovoltaic board mechanism that sets up on second pendulum rod surface, reach the installation angle that can adjust the photovoltaic board in a flexible way, increase the sunshine area of photovoltaic board and long with sunshine, improve the effect to solar energy resource utilization.

Description

Energy-saving solar bracket for efficiently collecting solar energy

Technical Field

The invention relates to the technical field of new energy, in particular to an energy-saving solar support for efficiently collecting solar energy.

Background

The solar support is a device for fixing the solar photovoltaic panel, the erection of the solar support can ensure that the photovoltaic panel can make full use of local solar energy resources, so as to provide stable heat effect and good power generation efficiency, and the common solar support in daily life comprises a solar water heater support and a solar photovoltaic panel support.

Because the traditional solar photovoltaic panel bracket is integral, the inclination angle and the height of the traditional solar photovoltaic panel bracket are fixed when being installed, although the installation direction of the photovoltaic panel is generally south, the installation direction of the photovoltaic panel is influenced by seasonal climate, weather and the like, the azimuth angle of the photovoltaic panel when the photovoltaic panel is sheltered from the sun shadow is often required to be regularly adjusted, so that the power generation efficiency is improved, but the angle and the height of the photovoltaic panel cannot be adjusted by the traditional solar bracket, so that the power generation efficiency of the photovoltaic panel is low at a certain specific moment, and the waste of solar energy and time resources is caused, the invention provides the energy-saving solar bracket for efficiently collecting solar energy, the installation angle and the height of the photovoltaic panel can be flexibly adjusted to obtain the maximum solar illumination, and the problem that the traditional solar bracket cannot adjust the angle and the height of the solar bracket in time due to fixed structure is solved, causing the problem of unreasonable resource utilization.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an energy-saving solar support for collecting solar energy with high efficiency, which has the advantages of flexibly adjusting the installation angle and height of a solar photovoltaic panel, increasing the sunshine area and time of the photovoltaic panel, improving the utilization rate of the photovoltaic panel to the solar energy and the power generation efficiency, and solving the problems of low solar energy utilization rate and slow power generation efficiency caused by insufficient sunshine area and time of the photovoltaic panel due to the fact that the angle and the height of the photovoltaic panel cannot be adjusted in real time because the structure of the traditional solar support is fixed.

In order to realize the purposes of flexibly adjusting the installation angle and the height of the solar photovoltaic panel, increasing the sunshine area and the sunshine time of the photovoltaic panel and improving the utilization rate of the photovoltaic panel on solar energy and the power generation efficiency, the invention provides the following technical scheme: the utility model provides an energy-conserving type solar rack that high efficiency was gathered carries out solar energy, includes drive gear mechanism, the fixed surface of drive gear mechanism is connected with first commentaries on classics cover, the inside of first commentaries on classics cover is pegged graft and is had first ejector pin, the one end that first ejector pin kept away from first commentaries on classics cover is rotated and is connected with first slider, the fixed surface of drive gear mechanism is connected with the second and changes the cover, the inside of second commentaries on classics cover is pegged graft and is had the second ejector pin, the one end that the second ejector pin kept away from the second and changes the cover is rotated and is connected with the second slider.

The novel folding table is characterized by further comprising a back plate, wherein the surface of the back plate is connected with a support in a sliding mode, the surface of the back plate is connected with a rotating rod in a rotating mode, the surface of the back plate is connected with a first swing rod in a sliding mode, and the surface of the back plate is connected with a second swing rod in a sliding mode.

The screw rod mechanism is characterized by further comprising a screw rod mechanism, the surface of the screw rod mechanism is in threaded connection with a threaded sleeve, the surface of the threaded sleeve is fixedly connected with a limiting block, and the surface of the limiting block is fixedly connected with a spring ejector rod.

Preferably, the driving gear mechanism is composed of a main gear and two pinions with the same size, wherein the two pinions are respectively connected to two sides of the main gear in a meshing manner, the driving gear mechanism is rotatably connected to the surface of the bracket, the first rotating sleeve is fixedly connected to the axis of one of the pinions, and the second rotating sleeve is fixedly connected to the axis of the other pinion.

Preferably, the first rotating sleeve and the second rotating sleeve are the same in length and are parallel to each other, a spring mechanism is fixedly connected inside the first rotating sleeve and the second rotating sleeve, the first ejector rod and the second ejector rod are the same in length and are respectively connected inside the first rotating sleeve and the second rotating sleeve in an inserting and sliding mode, and the first sliding block and the second sliding block are also the same in size.

Preferably, the first swing rod and the second swing rod are the same in length and parallel, two ends of the first swing rod and the second swing rod are respectively connected with a connecting rod in a rotating mode, the first swing rod, the second swing rod and the connecting rods form a parallelogram structure, the end portion of the rotating rod is connected to the center of one connecting rod in a rotating mode, sliding grooves matched with the first sliding block and the second sliding block in size are formed in the front faces of the first swing rod and the second swing rod respectively, slotted holes matched with the spring ejector rod in diameter and size are formed in the side surfaces of the first swing rod and the second swing rod, a solar photovoltaic panel mechanism is arranged on the surface of the second swing rod, and the support is vertically connected to the surface of the back plate in a sliding mode.

Preferably, the screw mechanism is rotatably connected to the surface of the back plate, two limiting blocks and two spring ejector rods are arranged, the two limiting blocks are fixedly connected to two ends of the threaded sleeve respectively, the spring ejector rods are fixedly connected to back axes of the two limiting blocks respectively, two ends of the two spring ejector rods are connected to grooves formed in side surfaces of the first swing rod and the second swing rod in an inserting mode respectively and in a sliding mode, a spring is sleeved on the surface of each spring ejector rod, and the spring is arranged between the first swing rod and the second swing rod.

Advantageous effects

Compared with the prior art and products, the invention has the beneficial effects that:

1. this energy-conserving solar rack that high efficiency was gathered carries out solar energy, it changes the synchronous rotation of cover and second to drive first commentaries on classics cover through the rotation that drives gear mechanism, and make first ejector pin and second ejector pin rotate and drive first slider and second slider and slide along the spout that first pendulum rod and second pendulum rod surface were seted up, drive the second pendulum rod with this and rotate, and carry out angle modulation to the solar photovoltaic panel mechanism that sets up on second pendulum rod surface, reach the installation angle that can adjust the photovoltaic board in a flexible way, increase the area of sunshine and time length of photovoltaic board, the improvement is to solar energy resource utilization's effect.

2. The energy-saving solar support for efficiently collecting solar energy drives the threaded sleeve to move along the surface of the threaded sleeve through the rotation of the screw mechanism, and the threaded sleeve drives the limiting block and the spring ejector rod to slide along the slotted holes formed in the side surfaces of the first swing rod and the second swing rod, so that the first swing rod and the second swing rod are driven to vertically slide along the surface of the back plate together with the driving gear mechanism and the support, the vertical height of the photovoltaic panel can be adjusted, the utilization rate of the photovoltaic panel on the solar energy is increased, and the power generation efficiency and the resource saving effect of the photovoltaic panel are improved.

Drawings

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

FIG. 2 is a schematic view of the structure of the driving gear mechanism of the present invention;

fig. 3 is a schematic structural view of the screw mechanism of the present invention.

In the figure: 1. a back plate; 2. a support; 3. a rotating rod; 4. a first swing link; 5. a second swing link; 6. a drive gear mechanism; 61. a first rotating sleeve; 62. a first ejector rod; 63. a first slider; 64. a second rotating sleeve; 65. a second ejector rod; 66. a second slider; 7. a screw mechanism; 71. a threaded sleeve; 72. a limiting block; 73. and a spring ejector rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 and 2, in a first embodiment:

the utility model provides an energy-conserving type solar rack that high efficiency was gathered to solar energy, includes drive gear mechanism 6, drive gear mechanism 6 is connected to form by a master gear and two pinion engagement that the size is the same, and wherein two pinion engagement respectively connect in the both sides of master gear, and drive gear mechanism 6 rotates and connects on the surface of support 2, and first commentaries on classics cover 61 fixed connection is in the axle center department of a pinion, and second commentaries on classics cover 64 fixed connection is in the axle center department of another pinion.

The surface of the driving gear mechanism 6 is fixedly connected with a first rotating sleeve 61, the first rotating sleeve 61 and a second rotating sleeve 64 are the same in length, the first rotating sleeve 61 and the second rotating sleeve 64 are in a parallel state, a spring mechanism is fixedly connected inside the first rotating sleeve 61 and the second rotating sleeve 64, a first push rod 62 and a second push rod 65 are the same in length, the first push rod 62 and the second push rod 65 are respectively connected in an inserted manner and slidably connected inside the first rotating sleeve 61 and the second rotating sleeve 64, a first sliding block 63 and a second sliding block 66 are also the same in size, a first push rod 62 is inserted inside the first rotating sleeve 61, one end, far away from the first rotating sleeve 61, of the first push rod 62 is rotatably connected with a first sliding block 63, the surface of the driving gear mechanism 6 is fixedly connected with the second rotating sleeve 64, a second push rod 65 is inserted inside the second rotating sleeve 64, and one end, far away from the second rotating sleeve 64, of the second push rod 65 is rotatably connected with a second sliding block 66.

The solar energy photovoltaic power generation backboard comprises a backboard 1, wherein a support 2 is connected to the surface of the backboard 1 in a sliding manner, a rotating rod 3 is connected to the surface of the backboard 1 in a rotating manner, a first swing rod 4 is connected to the surface of the backboard 1 in a sliding manner, the first swing rod 4 and a second swing rod 5 are identical in length and are parallel, two ends of the first swing rod 4 and the second swing rod 5 are respectively connected with a connecting rod in a rotating manner, a parallelogram structure is formed by the first swing rod 4, the second swing rod 5 and the two connecting rods, the end part of the rotating rod 3 is connected to the center of one of the connecting rods in a rotating manner, sliding grooves matched with the first sliding block 63 and the second sliding block 66 in size are respectively formed in the front surfaces of the first swing rod 4 and the second swing rod 5, slotted holes matched with the rod diameter of a spring push rod 73 are respectively formed in the side surfaces of the first swing rod 4 and the second swing rod 5, a solar energy photovoltaic plate mechanism is arranged on the surface of the second swing rod 5, the support 2 is vertically connected to the surface of the backboard 1 in a sliding manner, the surface of the back plate 1 is connected with a second swing link 5 in a sliding way.

The first rotating sleeve 61 and the second rotating sleeve 64 are driven to synchronously rotate through the rotation of the driving gear mechanism 6, the first ejector rod 62 and the second ejector rod 65 are driven to rotate, the first sliding block 63 and the second sliding block 66 are driven to slide along sliding grooves formed in the surfaces of the first swing rod 4 and the second swing rod 5, the second swing rod 5 is driven to rotate, and a solar photovoltaic panel mechanism arranged on the surface of the second swing rod 5 is subjected to angle adjustment, so that the installation angle of a photovoltaic panel can be flexibly adjusted, the sunshine area and the duration of the photovoltaic panel are increased, and the effect of the utilization rate of solar energy resources is improved.

Referring to fig. 1 and 3, the second embodiment:

an energy-saving solar support for collecting solar energy efficiently comprises a driving gear mechanism 6, wherein the driving gear mechanism 6 is formed by meshing and connecting a main gear and two auxiliary gears with the same size, the two auxiliary gears are respectively meshed and connected to two sides of the main gear, the driving gear mechanism 6 is rotatably connected to the surface of a support 2, a first rotating sleeve 61 is fixedly connected to the axis of one auxiliary gear, and a second rotating sleeve 64 is fixedly connected to the axis of the other auxiliary gear.

The surface of the driving gear mechanism 6 is fixedly connected with a first rotating sleeve 61, the first rotating sleeve 61 and a second rotating sleeve 64 are the same in length, the first rotating sleeve 61 and the second rotating sleeve 64 are in a parallel state, a spring mechanism is fixedly connected inside the first rotating sleeve 61 and the second rotating sleeve 64, the first ejector rod 62 and the second ejector rod 65 are the same in length, the first ejector rod 62 and the second ejector rod 65 are respectively connected inside the first rotating sleeve 61 and the second rotating sleeve 64 in an inserting mode, the first ejector rod 62 is connected inside the first rotating sleeve 61 in a rotating mode, one end, far away from the first rotating sleeve 61, of the first ejector rod 62 is connected with a first slider 63 in a rotating mode, the surface of the driving gear mechanism 6 is fixedly connected with the second rotating sleeve 64, the second ejector rod 65 is connected inside the second rotating sleeve 64 in an inserting mode, and one end, far away from the second rotating sleeve 64, of the second ejector rod 65 is connected with a second slider 66 in a rotating mode.

Still include screw mechanism 7, screw mechanism 7 rotates the surface of connecting at backplate 1, stopper 72 and spring ejector rod 73 all are provided with two, these two stopper 72 difference fixed connection are at the both ends of swivel nut 71, spring ejector rod 73 difference fixed connection is in the back axle center department of two stopper 72, and the both ends of these two spring ejector rods 73 peg graft respectively and sliding connection is in the slotted hole that first pendulum rod 4 and second pendulum rod 5 side surface were seted up, the spring has been cup jointed on spring ejector rod 73's surface, this spring setting is between first pendulum rod 4 and second pendulum rod 5, screw mechanism 7's surperficial threaded connection has swivel nut 71, the fixed surface of swivel nut 71 is connected with stopper 72, the fixed surface of stopper 72 is connected with spring ejector rod 73.

The screw rod mechanism 7 rotates to drive the screw sleeve 71 to move along the surface of the screw sleeve, and the screw sleeve 71 drives the limiting block 72 and the spring ejector rod 73 to slide along the slotted holes formed in the side surfaces of the first swing rod 4 and the second swing rod 5, so that the first swing rod 4 and the second swing rod 5, the driving gear mechanism 6 and the support 2 are driven to vertically slide along the surface of the back plate 1, the vertical height of the photovoltaic panel can be adjusted, the utilization rate of the photovoltaic panel on solar energy is increased, and the power generation efficiency and the resource saving effect of the photovoltaic panel are improved.

Please refer to fig. 1-3, example three:

The solar energy heat-insulation plate also comprises a back plate 1, the surface of the back plate 1 is connected with a support 2 in a sliding manner, the surface of the back plate 1 is connected with a rotating rod 3 in a rotating manner, the surface of the back plate 1 is connected with a first swing rod 4 in a sliding manner, the first swing rod 4 and a second swing rod 5 are identical in length and are parallel, two ends of the first swing rod 4 and the second swing rod 5 are respectively connected with a connecting rod in a rotating manner, a parallelogram structure is formed by the first swing rod 4, the second swing rod 5 and the two connecting rods, the end part of the rotating rod 3 is connected to the center of one of the connecting rods in a rotating manner, sliding grooves matched with the first sliding block 63 and the second sliding block 66 in size are respectively arranged on the front surfaces of the first swing rod 4 and the second swing rod 5, slotted holes matched with the rod diameter of the spring ejector rod 73 are respectively arranged on the side surfaces of the first swing rod 4 and the second swing rod 5, a solar photovoltaic plate mechanism is arranged on the surface of the second swing rod 5, the support 2 is vertically connected to the surface of the back plate 1 in a sliding manner, the surface of the back plate 1 is connected with a second swing rod 5 in a sliding way.

During the operation process and principle of the solar photovoltaic panel installation and adjustment, firstly, the driving gear mechanism 6 which is rotationally connected with the surface of the bracket 2 is driven, the main gear in the driving gear mechanism 6 rotates and drives the two secondary gears which are in meshed connection with the main gear to synchronously rotate, the two secondary gears synchronously rotate and respectively drive the first rotating sleeve 61 and the second rotating sleeve 64 which are fixedly connected with the surface of the main gear to rotate, the first rotating sleeve 61 and the second rotating sleeve 64 rotate and respectively drive the first ejector rod 62 and the second ejector rod 65 which are inserted in the first rotating sleeve and rotate, the first ejector rod 62 and the second ejector rod 65 rotate and respectively drive the first sliding block 63 and the second sliding block 66 which are rotationally connected with the surface of the first sliding block 63 and the second sliding block 66 to rotate along the sliding grooves which are arranged on the front surfaces of the first swing rod 4 and the second swing rod 5, the second swing rod 5 rotates and drives the solar photovoltaic panel mechanism which is arranged on the surface to rotate, therefore, the angle of the solar photovoltaic panel is adjusted.

When the height of the solar photovoltaic panel mechanism needs to be adjusted, the screw mechanism 7 connected to the surface of the back panel 1 is driven to rotate at the moment, so that the screw mechanism 7 rotates and drives the threaded sleeve 71 connected with the screw mechanism to move, the threaded sleeve 71 moves and drives the two limiting blocks 72 fixedly connected with the threaded sleeve to move, the support 2 is vertically connected to the surface of the back panel 1 in a sliding manner, when the two limiting blocks 72 move, the spring ejector rod 73 fixedly connected to the back of the support can be driven to move, and at the moment, the spring ejector rod 73 slides along the slotted holes formed in the side surfaces of the first swing rod 4 and the second swing rod 5.

The limiting block 72 moves and extrudes the spring sleeved on the surface of the spring push rod 73, so that the spring extrudes the first swing rod 4 and the second swing rod 5 and drives the first swing rod 4 and the second swing rod 5 to move along the vertical direction, the first swing rod 4 and the second swing rod 5 move and drive the first sliding block 63 and the second sliding block 66 which are connected to the surfaces of the first swing rod 4 and the second swing rod 5 in a sliding manner to move along the vertical direction, the first sliding block 63 and the second sliding block 66 move and drive the first push rod 62, the first rotating sleeve 61, the second push rod 65 and the second rotating sleeve 64 to integrally move along the vertical direction together with the driving gear mechanism 6, the driving gear mechanism 6 moves and drives the support 2 which is connected with the driving gear mechanism in a rotating manner to vertically move along the surface of the back plate 1, and therefore the height adjustment of the solar photovoltaic panel mechanism fixedly connected to the surface of the second swing rod 5 is realized.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an energy-conserving type solar rack that high efficiency was gathered solar energy which characterized in that: the device comprises a driving gear mechanism (6), wherein a first rotating sleeve (61) is fixedly connected to the surface of the driving gear mechanism (6), a first ejector rod (62) is inserted into the first rotating sleeve (61), one end, far away from the first rotating sleeve (61), of the first ejector rod (62) is rotatably connected with a first sliding block (63), a second rotating sleeve (64) is fixedly connected to the surface of the driving gear mechanism (6), a second ejector rod (65) is inserted into the second rotating sleeve (64), and one end, far away from the second rotating sleeve (64), of the second ejector rod (65) is rotatably connected with a second sliding block (66);

the device is characterized by further comprising a back plate (1), wherein a support (2) is connected to the surface of the back plate (1) in a sliding manner, a rotating rod (3) is rotatably connected to the surface of the back plate (1), a first swing rod (4) is connected to the surface of the back plate (1) in a sliding manner, and a second swing rod (5) is connected to the surface of the back plate (1) in a sliding manner;

the screw rod mechanism (7) is further included, a threaded sleeve (71) is connected to the surface of the screw rod mechanism (7) in a threaded mode, a limiting block (72) is fixedly connected to the surface of the threaded sleeve (71), and a spring ejector rod (73) is fixedly connected to the surface of the limiting block (72);

the length of the first swing rod (4) is the same as that of the second swing rod (5), the first swing rod and the second swing rod are parallel, two ends of the first swing rod and the second swing rod are respectively connected with a connecting rod in a rotating mode, the first swing rod (4), the second swing rod (5) and the two connecting rods form a parallelogram structure, the end portion of the rotating rod (3) is connected to the center of one connecting rod in a rotating mode, sliding grooves matched with the first sliding block (63) and the second sliding block (66) in size are formed in the front faces of the first swing rod (4) and the second swing rod (5) respectively, slotted holes matched with the spring ejector rod (73) in rod diameter size are formed in the side surfaces of the first swing rod (4) and the second swing rod (5), a solar photovoltaic panel mechanism is arranged on the surface of the second swing rod (5), and the support (2) is vertically connected to the surface of the back panel (1) in a sliding mode.

2. The energy saving solar rack for high efficiency collection of solar energy as claimed in claim 1, wherein: the driving gear mechanism (6) is formed by meshing and connecting a main gear and two auxiliary gears with the same size, wherein the two auxiliary gears are respectively meshed and connected with two sides of the main gear, the driving gear mechanism (6) is rotatably connected on the surface of the support (2), the first rotating sleeve (61) is fixedly connected at the axis of one auxiliary gear, and the second rotating sleeve (64) is fixedly connected at the axis of the other auxiliary gear.

3. An energy efficient solar support for high efficiency solar energy harvesting of claim 1, characterized by: the length of the first rotating sleeve (61) is the same as that of the second rotating sleeve (64), the first rotating sleeve and the second rotating sleeve are parallel, a spring mechanism is fixedly connected inside the first rotating sleeve and the second rotating sleeve, the length of the first ejector rod (62) is the same as that of the second ejector rod (65), the first ejector rod and the second ejector rod are respectively connected inside the first rotating sleeve (61) and the second rotating sleeve (64) in an inserting and sliding mode, and the first sliding block (63) and the second sliding block (66) are also the same in size.

4. An energy efficient solar support for high efficiency solar energy harvesting of claim 1, characterized by: the screw rod mechanism (7) is rotatably connected to the surface of the back plate (1), two limiting blocks (72) and two spring ejector rods (73) are arranged, the two limiting blocks (72) are respectively and fixedly connected to two ends of the threaded sleeve (71), the spring ejector rods (73) are respectively and fixedly connected to the back axle centers of the two limiting blocks (72), two ends of the two spring ejector rods (73) are respectively inserted and connected into groove holes formed in the side surfaces of the first swing rod (4) and the second swing rod (5) in a sliding mode, a spring is sleeved on the surface of each spring ejector rod (73), and the spring is arranged between the first swing rod (4) and the second swing rod (5).