CN112838827A

CN112838827A - High-performance graphene solar cell

Info

Publication number: CN112838827A
Application number: CN202110228984.9A
Authority: CN
Inventors: 王莱
Original assignee: Individual
Current assignee: Chengdu Zhonggong Electric Engineering Co ltd
Priority date: 2021-03-02
Filing date: 2021-03-02
Publication date: 2021-05-25
Anticipated expiration: 2041-03-02
Also published as: CN112838827B

Abstract

The invention discloses a high-performance graphene solar cell, which structurally comprises a supporting seat, a motor and a light absorption device, wherein rainwater falls and stays on the surface of a solar panel in sunny days, a pushing block of a pushing mechanism moves under the swinging force of a light absorption plate, the pushing block resets to push the light absorption plate to vibrate, so that water drops on the surface of the light absorption plate can be accelerated to shake and flow away from the surface of the light absorption plate, the water drops can be prevented from staying on the surface of the solar panel, the reflection of the water drops on the surface of the solar panel to sunlight is reduced, the absorption of the solar panel to the light energy is improved, the generation amount of electric energy is increased, a certain gap exists between a clamping groove and a connecting rod, the rainwater can easily enter the clamping groove along the gap between the clamping groove and the connecting rod, a collecting mechanism is arranged outside the connecting rod and can collect the external rainwater, the speed of resetting of release link deformation can be accelerated for the release link will promote the piece and promote the removal.

Description

High-performance graphene solar cell

Technical Field

The invention belongs to the field of graphene processing equipment, and particularly relates to a high-performance graphene solar cell.

Background

Because the graphene material has good optical characteristics, the graphene material can absorb light energy and convert the light energy into electric energy to be stored in a battery for use, the graphene is generally processed into a solar panel to absorb the light energy, and in order to enable the solar panel to fully absorb the light energy, a steering device is arranged at the bottom of the solar panel to drive the solar panel to rotate along with the change of the angle of sunlight; when adopting graphite alkene solar cell to absorb light energy to produce the electric energy among the prior art, because when meetting sunny and rainy day, the rainwater descends and is detained on the solar panel surface, leads to the raindrop on solar panel surface to sunshine reflection for solar panel reduces the absorptivity of light energy, has reduced the production of electric energy.

Disclosure of Invention

In order to solve the problems that when the graphene solar cell is adopted to absorb light energy to generate electric energy in the prior art, rainwater falls and stays on the surface of the solar panel in sunny and rainy days, rain drops on the surface of the solar panel reflect sunlight, the absorptivity of the solar panel to the light energy is reduced, and the generation amount of the electric energy is reduced, the invention provides the high-performance graphene solar cell.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a rare solar cell of high performance graphite, its structure includes supporting seat, motor, extinction device, the motor is installed and is put at supporting seat top central point, extinction device and motor left side clearance fit.

The light absorption device is provided with a supporting shaft, a light absorption plate and a pushing mechanism, the supporting shaft is arranged on the right side of the light absorption device, the middle of the right side face of the light absorption plate is hinged with the top end of the supporting shaft, and the pushing mechanism is arranged between the right side face of the light absorption plate and the upper surface of the supporting shaft.

As a further improvement of the invention, the pushing mechanism is provided with two supporting blocks, two pushing blocks, two clamping grooves, two connecting rods and two reset rods, the supporting blocks are positioned below the pushing mechanism, the pushing blocks are arranged above the supporting blocks, the clamping grooves penetrate through the upper surface and the inner part of the middle part of the supporting blocks, the top ends of the connecting rods are fixed in the middle of the bottom surfaces of the pushing blocks, the middle lower ends of the connecting rods are arranged in the clamping grooves, the top ends of the reset rods are arranged on the bottom surfaces of the connecting rods, the bottom ends of the reset rods lean against the bottom.

As a further improvement of the invention, the pushing block is provided with a buffer plate, deformation rings and three accumulation cavities, the buffer plate is arranged on the upper surface of the pushing block through the deformation rings, the accumulation cavities are arranged between the right side surface and the inner part of the pushing block, and the three deformation rings are made of rubber.

As a further improvement of the invention, the accumulation cavity is provided with a blocking ball, a swinging rod and a reset strip, the blocking ball is sleeved inside the right side of the lower end of the accumulation cavity, the left side of the top end of the swinging rod is connected and installed on the outer wall of the right side surface of the accumulation cavity, the left side of the bottom end of the swinging rod is connected with the middle part of the blocking ball, the reset strip is connected between the outer wall of the right side of the accumulation cavity and the left side surface of the swinging rod, and the upper end of the.

As a further improvement of the invention, the clamping ball is provided with a movable groove, a clamping block and a rebound block, the movable groove is respectively sunken between the surface of the middle part of the upper end and the surface of the lower end of the clamping ball and the inside of the clamping ball, the rebound block is fixed in the middle part of the inner wall of the movable groove, the clamping block is connected with the tail end of the rebound block, and the left side surface of the clamping ball is an uneven surface.

As a further improvement of the invention, the connecting rod is provided with a limiting plate, a rod body and two collecting mechanisms, the limiting plate is positioned below the connecting rod, the bottom end of the rod body is fixed in the middle of the upper surface of the limiting plate, the collecting mechanisms are respectively connected with the outer walls of two sides of the rod body, and the two collecting mechanisms are symmetrically distributed.

As a further improvement of the invention, the collecting mechanism is provided with an absorbing block, a drainage groove, a limiting block, a blocking block and a telescopic strip, wherein the absorbing block is nested on the left side surface of the collecting mechanism, the drainage groove respectively penetrates through the top surface and the inside of the collecting mechanism and the left side surface close to the lower end of the collecting mechanism, the limiting block is connected with the inner wall of the left side of the lower end of the drainage groove into a whole, the blocking block is sleeved inside the left end of the drainage groove, the telescopic strip is arranged between the right side surface of the blocking block and the left side surface of the blocking block, the absorbing block is made of sponge, and the blocking block is movably matched with.

As a further improvement of the invention, the blocking block is provided with a block body, a push plate and magnetic blocks, the block body is arranged in the middle of the right side of the blocking block, the push plate and the left side face of the block body are connected into a whole, the magnetic blocks are respectively embedded and fixed at the upper end and the lower end of the push plate, the block body is provided with a rugged surface on the right side face, and the magnetic blocks are movably matched with the limiting block through magnetic force.

Advantageous effects

Compared with the prior art, the invention has the following beneficial effects:

1. owing to meet when sunny and rainy day, the rainwater descends and is detained on the solar panel surface, and the promotion piece through pushing mechanism receives the swing power of extinction board and removes, promotes the piece and resets and promotes extinction board promotion vibrations, can accelerate the drop of water shake on extinction board surface to flow and leave extinction board surface, can reduce the drop of water and stay on the solar panel surface, reduces the drop of water on solar panel surface and reflects to sunshine, is favorable to improving the absorption of solar panel to the light energy, increases the production of electric energy.

2. Because draw-in groove and connecting rod have certain clearance, the rainwater easily enters into the draw-in groove along the clearance of draw-in groove and connecting rod, is equipped with through the outside of connecting rod and collects the mechanism and can collect external rainwater, reduces the rainwater and enters into the draw-in groove along the clearance between draw-in groove and the connecting rod inside, can accelerate release link deformation speed of resetting for the release link will promote the piece and promote the removal.

Drawings

Fig. 1 is a schematic structural diagram of a high-performance graphene solar cell according to the present invention.

FIG. 2 is a schematic side view of a light absorbing device according to the present invention.

Fig. 3 is a side sectional structural schematic view of a pushing mechanism according to the present invention.

FIG. 4 is a side sectional view of a pushing block according to the present invention.

FIG. 5 is a side sectional view of a stacking chamber according to the present invention.

FIG. 6 is a schematic side sectional view of a snap ball according to the present invention.

FIG. 7 is a side sectional view of a connecting rod according to the present invention.

FIG. 8 is a side cross-sectional structural schematic view of a collection mechanism of the present invention.

FIG. 9 is a side view of a barrier according to the present invention.

In the figure: the device comprises a supporting seat-1, a motor-2, a light absorption device-3, a supporting shaft-31, a light absorption plate-32, a pushing mechanism-33, a supporting block-331, a pushing block-332, a clamping groove-333, a connecting rod-334, a reset rod-335, a buffer plate-a 1, a deformation ring-a 2, an accumulation cavity-a 3, a clamping ball-a 31, a swinging rod-a 32, a reset strip-a 33, a movable groove-b 1, a clamping block-b 2, a rebounding block-b 3, a limiting plate-r 1, a rod body-r 2, a collecting mechanism-r 3, an absorption block-r 31, a drainage groove-r 32, a limiting block-r 33, a blocking block-r 34, a telescopic strip-r 35, a block-t 1, a push plate-t 2 and a magnetic block-t 3.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 6:

the invention provides a high-performance graphene solar cell which structurally comprises a supporting seat 1, a motor 2 and a light absorption device 3, wherein the motor 2 is arranged at the center of the top of the supporting seat 1, and the light absorption device 3 is movably matched with the left side of the motor 2.

The light absorption device 3 is provided with a support shaft 31, a light absorption plate 32 and a pushing mechanism 33, the support shaft 31 is arranged on the right side of the light absorption device 3, the middle of the right side face of the light absorption plate 32 is hinged to the top end of the support shaft 31, and the pushing mechanism 33 is installed between the right side face of the light absorption plate 32 and the upper surface of the support shaft 31.

The pushing mechanism 33 is provided with a supporting block 331, a pushing block 332, a clamping groove 333, a connecting rod 334 and two reset rods 335, the supporting block 331 is located below the pushing mechanism 33, the pushing block 332 is arranged above the supporting block 331, the clamping groove 333 penetrates through the upper surface of the middle of the supporting block 331 and the inside of the clamping groove, the top end of the connecting rod 334 is fixed in the middle of the bottom surface of the pushing block 332, the middle lower end of the connecting rod is arranged inside the clamping groove 333, the top end of the reset rod 335 is arranged on the bottom surface of the connecting rod 334, the bottom end of the reset rod leans against the bottom of the clamping groove 333, the two reset rods 335 are arranged, the supporting force of the reset rods 335 on the pushing block 332 through the connecting rod 334 can be increased, the speed of resetting of the.

Wherein, it is equipped with buffer board a1, deformation ring a2, piles up chamber a3 to promote piece 332, buffer board a1 installs at promotion piece 332 upper surface through deformation ring a2, it sets up between promotion piece 332 right flank surface and inside to pile up chamber a3, deformation ring a2 is equipped with threely, and is the rubber material, has the elasticity, is favorable to deformation ring a2 to receive rebound behind the thrust deformation of buffer board a1 and pushes away buffer board a1, can reduce the propulsion that promotes piece 332 to light absorbing plate 32, reduces the phenomenon that light absorbing plate 32 side received the impact and appears the deformation.

The accumulation cavity a3 is provided with a ball clamping a31, a swinging rod a32 and a reset bar a33, the ball clamping a31 is sleeved inside the right side of the lower end of the accumulation cavity a3, the left side of the top end of the swinging rod a32 is connected with the outer wall of the right side of the accumulation cavity a3, the left side of the bottom end of the swinging rod a32 is connected with the middle of the ball clamping a31, the reset bar a33 is connected between the outer wall of the right side of the accumulation cavity a3 and the left side surface of the swinging rod a32, the upper end of the right side of the accumulation cavity a3 is smooth, external rainwater can enter the accumulation cavity a3 along the upper end of the accumulation cavity a3, gravity of the push block 332 can be increased, the push block 332 can move downwards to push the reset rod 335 to shrink through the connecting rod 334, the reset rod 335 can rebound to push the push block 332 to push the light absorption plate.

The clamping ball a31 is provided with a movable groove b1, a clamping block b2 and a rebounding block b3, the movable groove b1 is respectively recessed between the surfaces of the middle of the upper end and the lower end of the clamping ball a31 and the inside of the clamping ball a31, the rebounding block b3 is fixed to the middle of the inner wall of the movable groove b1, the clamping block b2 is connected with the tail end of the rebounding block b3, the left side surface of the clamping ball a31 is an uneven surface, the stress area of the left side surface of the clamping ball a31 can be increased, the clamping ball a31 can move towards the outside of the right side of the accumulation cavity a3 under the thrust of liquid in the accumulation cavity a3, the lower end of the accumulation cavity a3 is smooth, rainwater in the accumulation cavity a3 can be discharged, the gravity of the pushing block 332.

The specific use mode and function of the embodiment are as follows:

in the invention, the light absorption plate 32 of the light absorption device 3 absorbs light energy and converts the light energy into electric energy, the motor 2 is controlled to rotate to drive the light absorption plate 32 to rotate along with the change of sunlight through the supporting shaft 31, when the rain occurs, the top of the right end of the light absorption plate 32, which is pushed by rainwater, swings downwards to push the pushing block 332 of the pushing mechanism 33, the pushing block 332 pushes the resetting rod 335 inside the clamping groove 333 of the supporting block 331 downwards through the connecting rod 334 to deform, the resetting rod 335 resets to bounce the pushing block 332, the light absorption plate 32 is pushed by the pushing block 332 with the supporting shaft 31 as a fulcrum to swing upwards, so that rainwater accumulated on the surface of the light absorption plate 32 shakes and flows away from the surface of the light absorption plate 32, when the light absorption plate 32 swings, the buffer plate a1 on the top of the pushing block 332 is pushed by the thrust of the light absorption plate 32 to deform, the buffer plate a1 is pushed backwards after the deformation ring a2 resets, and the light absorption plate 32, the impact force of the pushing block 332 on the light absorbing plate 32 is reduced, rainwater flows into the accumulation cavity a3 along the top end of the accumulation cavity a3 of the pushing block 331, so that the gravity of the pushing block 331 is increased, the downward movement speed of the pushing block 331 is increased, the pushing force of the liquid is greater than the pulling force of the resetting strip a33 as the liquid in the accumulation cavity a3 is gradually increased, the liquid pushes the blocking ball a31 to the outside of the bottom end of the accumulation cavity a3 with the swinging rod a32 as a fulcrum, the liquid is discharged, the gravity of the pushing block 332 is changed, the resetting rod 335 quickly pushes the pushing block 332 to reset, when the liquid in the accumulation cavity a3 is reduced, the resetting strip a33 pulls the swinging rod a32 to reset, the swinging rod a32 pushes the blocking ball a31 back to the inside of the bottom end of the accumulation cavity a3, the liquid is favorably accumulated inside the accumulation cavity a3, the gravity of the pushing block 332 can be changed, the upward and downward movement speed of the pushing block 332 is favorably increased, and the upward and downward movement, rebound piece b3 in calorie ball a31 promotes fixture block b2 toward activity groove b1 outside, it is spacing to calorie ball a31 with piling up chamber a3 outer wall activity block through fixture block b2, promotion piece 332 through pushing mechanism 33 receives the swing power removal of light absorption plate 32, it promotes vibrations to restore to the throne to promote light absorption plate 32, can accelerate the water droplet shake on light absorption plate 32 surface and flow and leave light absorption plate 32 surface, can reduce the water droplet and stay on the solar panel surface, reduce the raindrop on solar panel surface and reflect to sunshine, be favorable to improving the absorption of solar panel to light energy, increase the production of electric energy.

Example 2:

as shown in fig. 7 to 9:

wherein, connecting rod 334 is equipped with limiting plate r1, body of rod r2, collects mechanism r3, limiting plate r1 is located the connecting rod 334 below, body of rod r2 bottom mounting is in limiting plate r1 upper surface middle part position, it is connected with body of rod r2 both sides outer wall respectively to collect mechanism r3, it is equipped with two and is the symmetric distribution to collect mechanism r3, can increase the area of contact with draw-in groove 333 inner wall, reduces the clearance between draw-in groove 333 and the connecting rod 334, and inside the reduction rainwater entered into draw-in groove 333 along the clearance between draw-in groove 333 and the connecting rod 334, can accelerate the deformation resetting speed of release lever 335.

Wherein the collecting mechanism r3 is provided with an absorbing block r31, a drainage groove r32, a limiting block r33, a blocking block r34 and a telescopic strip r35, the absorbing block r31 is nested on the left side of the collecting mechanism r3, the drainage groove r32 respectively penetrates between the top surface and the inner part of the collecting mechanism r3 and the left side close to the lower end, the limiting block r33 is connected with the inner wall of the left side of the lower end of the drainage groove r32 into a whole, the blocking block r34 is sleeved inside the left end of the drainage groove r32, the telescopic bar r35 is installed between the right side of the stopper r34 and the left side of the stopper r34, the absorption block r31 is made of sponge material, has water absorption, can absorb and remove a small amount of water drops on the inner wall of the clamping groove 333, the stopper r34 and two the same telescopic bars r35 clearance fit, can increase the power that draws of telescopic bar r35 to stopper r34 for inside stopper r34 resets and enters into drainage groove r32, can block the inside liquid of drainage groove r 32.

The blocking block r34 is provided with a block body t1, a push plate t2 and a magnetic block t3, the block body t1 is arranged in the middle of the right side of the blocking block r34, the push plate t2 is connected with the left side face of the block body t1 into a whole, the magnetic block t3 is fixedly embedded at the upper end and the lower end of the push plate t2 respectively, the block body t1 is provided with a surface with a rugged right side face, the force bearing area of the right side face of the block body t1 can be increased, the pushing movement of the blocking block r34 by liquid in the flow guide groove r32 can be accelerated, the liquid discharge speed in the flow guide groove r32 is accelerated, the magnetic block t3 and the limiting block r33 are movably matched through magnetic force, so that the blocking block t3 and the limiting block r33 generate suction, the blocking block r34 can be located in the flow guide groove r32, and the blocking block r34 can be.

The specific use mode and function of the embodiment are as follows:

in the invention, when the reset rod 335 pushes the connecting rod 334 to move, the limit plate r1 of the connecting rod 334 is movably clamped with the inner wall of the clamping groove 333 to limit the connecting rod 334, meanwhile, the collecting mechanisms r3 on two sides of the rod body r2 are contacted with the inner wall of the clamping groove 333, water drops on the inner wall of the clamping groove 333 are absorbed through the absorbing plate r31, external rainwater is introduced along the drainage groove r32 of the collecting mechanism r3, along with the gradual increase of liquid in the drainage groove r32, when the bottom end of the collecting mechanism r3 is separated from the inside of the clamping groove 333, the liquid in the drainage groove r32 pushes the block r34 to the outside of the drainage groove 737r 6, the block t1 pushes the telescopic bar r35 to the outside of the drainage groove r32, the liquid is discharged, when the liquid pushing force is reduced, the telescopic bar r35 pulls the block r34 to reset, the block r 465 is limited by the movable matching of the push pieces t3 at two ends of the push plate t2 and the limit the liquid in the block r, reduce liquid and discharge to draw-in groove 33 in, the outside through connecting rod 334 is equipped with collects mechanism r3 and can collects external rainwater, reduces the rainwater and enters into draw-in groove 333 along the clearance between draw-in groove 333 and connecting rod 334 inside, can accelerate release link 335 deformation speed of resetting for release link 335 will promote piece 332 and promote the removal.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The utility model provides a rare solar cell of high performance graphite, its structure includes supporting seat (1), motor (2), extinction device (3), motor (2) are installed and are put at supporting seat (1) top central point, extinction device (3) and motor (2) left side clearance fit, its characterized in that:

the light absorption device (3) is provided with a supporting shaft (31), a light absorption plate (32) and a pushing mechanism (33), the supporting shaft (31) is arranged on the right side of the light absorption device (3), the middle of the right side face of the light absorption plate (32) is hinged to the top end of the supporting shaft (31), and the pushing mechanism (33) is installed between the right side face of the light absorption plate (32) and the upper surface of the supporting shaft (31).

2. The high performance graphene solar cell of claim 1, wherein: pushing mechanism (33) are equipped with supporting shoe (331), promote piece (332), draw-in groove (333), connecting rod (334), release link (335), supporting shoe (331) are located pushing mechanism (33) below, it sets up in supporting shoe (331) top to promote piece (332), draw-in groove (333) run through between supporting shoe (331) middle part upper surface and the inside, connecting rod (334) top is fixed in the middle part of promoting piece (332) bottom surface, and well lower extreme setting is inside draw-in groove (333), the bottom surface at connecting rod (334) is installed on release link (335) top, and the bottom leans on in draw-in groove (333 bottom.

3. The high performance graphene solar cell of claim 2, wherein: promote piece (332) and be equipped with buffer plate (a1), deformation ring (a2), pile up chamber (a3), install at promotion piece (332) upper surface through deformation ring (a2) buffer plate (a1), pile up chamber (a3) and set up between promotion piece (332) right side surface and inside.

4. The high performance graphene solar cell of claim 3, wherein: pile up chamber (a3) and be equipped with card ball (a31), swinging arms (a32), strip (a33) resets, card ball (a31) cover is inside the right side of piling up chamber (a3) lower extreme, swinging arms (a32) top left side links up and installs and pile up chamber (a3) right side outer wall, and the bottom left side is connected with card ball (a31) middle part, strip (a33) resets is connected between piling up chamber (a3) right side outer wall and swinging arms (a32) left surface.

5. The high performance graphene solar cell according to claim 4, wherein: the clamping ball (a31) is provided with a movable groove (b1), a clamping block (b2) and a rebounding block (b3), the movable groove (b1) is respectively recessed between the surfaces of the middle parts of the upper end and the lower end of the clamping ball (a31) and the inner part of the clamping ball, the rebounding block (b3) is fixed in the middle of the inner wall of the movable groove (b1), and the clamping block (b2) is connected with the tail end of the rebounding block (b 3).

6. The high performance graphene solar cell of claim 2, wherein: connecting rod (334) are equipped with limiting plate (r1), the body of rod (r2), collect mechanism (r3), limiting plate (r1) are located connecting rod (334) below, the body of rod (r2) bottom mounting is in limiting plate (r1) upper surface middle part position, it is connected with the body of rod (r2) both sides outer wall respectively to collect mechanism (r 3).

7. The high performance graphene solar cell of claim 6, wherein: collecting mechanism (r3) is equipped with absorption piece (r31), drainage groove (r32), stopper (r33), blocks piece (r34), expansion bar (r35), absorption piece (r31) nestification is in collecting mechanism (r3) left surface, drainage groove (r32) run through respectively collection mechanism (r3) top surface and inside and lean on between the lower extreme left surface, stopper (r33) and drainage groove (r32) lower extreme left side inner wall are even as an organic whole, block piece (r34) cover inside drainage groove (r32) left end, expansion bar (r35) are installed and are being blocked between piece (r34) right flank and block piece (r34) left surface.

8. The high performance graphene solar cell of claim 6, wherein: the blocking block (r34) is provided with a block body (t1), a push plate (t2) and a magnetic block (t3), the block body (t1) is arranged in the middle of the right side of the blocking block (r34), the push plate (t2) is connected with the left side face of the block body (t1) into a whole, and the magnetic block (t3) is embedded at the upper end and the lower end of the push plate (t2) respectively.