CN116505839B

CN116505839B - Flexible solar photovoltaic panel capable of being spliced

Info

Publication number: CN116505839B
Application number: CN202310491263.6A
Authority: CN
Inventors: 陈宏军; 沈昱成
Original assignee: Hangzhou Yujun New Energy Technology Co ltd
Current assignee: Hangzhou Yujun New Energy Technology Co ltd
Priority date: 2023-05-05
Filing date: 2023-05-05
Publication date: 2023-10-03
Anticipated expiration: 2043-05-05
Also published as: CN116505839A

Abstract

The invention discloses a flexible solar photovoltaic panel capable of being spliced, and relates to the technical field of flexible solar photovoltaic panels. The flexible solar photovoltaic panels capable of being spliced are characterized in that a first assembly part and a second assembly part are respectively arranged on two sides of each flexible photovoltaic panel, two adjacent flexible photovoltaic panels are inserted into the splicing groove through the insertion plate, the insertion posts are inserted into the clamping grooves on two sides of the insertion plate under the elastic action of the telescopic springs, the two flexible photovoltaic panels are spliced together, the flexible photovoltaic panels are mutually spliced in the mode, the flexible photovoltaic panels are integrally formed, and the flexible photovoltaic panels can be completely bent to adapt to curved objects when the flexible photovoltaic panels are bent integrally, so that the assembly efficiency is improved.

Description

Flexible solar photovoltaic panel capable of being spliced

Technical Field

The invention relates to the technical field of flexible solar photovoltaic panels, in particular to a flexible solar photovoltaic panel capable of being spliced.

Background

The flexible solar photovoltaic panel is called flexible photovoltaic panel for short, namely the solar photovoltaic panel with bendable characteristic, and the flexible solar photovoltaic panel can be adaptively installed on various curved surface objects through bending arrangement, and the flexible solar photovoltaic panel can also be installed on a plane, so that the application range of the solar photovoltaic panel is improved.

The existing flexible solar photovoltaic panels are required to be bent when being installed on curved objects, if the curved objects with large areas are required to be bent, the flexible solar photovoltaic panels cannot be bent and adapted one by one at a time, and therefore assembly efficiency is seriously affected.

Accordingly, in view of the above, research and improvement are made to the existing structure and the existing defects, and a flexible solar photovoltaic panel capable of being spliced is provided.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a flexible solar photovoltaic panel capable of being spliced, and solves the problems in the background art.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a flexible solar photovoltaic board that can splice, includes flexible photovoltaic board, A assembly component and B assembly component, one side of flexible photovoltaic board has A assembly component through the screw fixation, B assembly component passes through the screw fixation in the opposite side of flexible photovoltaic board, A assembly component includes first assembly part, splice groove, extension spring, plectrum and spliced pole, splice groove has been seted up to the inside of first assembly part, and the both sides embedding of splice groove has extension spring, extension spring's end fixing has the plectrum, and the side of plectrum is fixed with the spliced pole, B assembly component includes second assembly part, accomodates groove, spacing groove, picture peg, drive chain, drive gear, rotates handle and draw-in groove, accomodate the groove has been seted up to the inside of second assembly part, and accomodate the bottom of groove and seted up the spacing groove, accomodate the inside of groove is provided with the picture peg, the side of drive chain meshes with drive gear, and drive gear's surface fixing has rotated, the draw-in groove has been seted up to the both sides.

Further, the top of the poking piece penetrates through the first assembly part, and the poking piece and the inserting column are elastically connected with the first assembly part through the telescopic spring.

Further, the transmission chain penetrates through the inside of the limit groove, and the plugboard is in transmission connection with the rotary handle through the transmission chain and the transmission gear.

Further, the transmission gears are rotatably connected with the second assembly part, and the transmission gears are two in number.

Further, the second assembly part is connected with the first assembly part in a clamping way through the insertion plate, the clamping groove and the insertion column, and the insertion column and the clamping groove are arranged in a one-to-one correspondence way.

Further, the assembly B further comprises a transmission belt, and the surface of the transmission gear is meshed with the transmission belt.

Further, a handle sleeve is arranged on the surface of the second assembly part, a rotary handle penetrates through the handle sleeve, a slot is tightly formed in the inner wall of the handle sleeve in an annular shape, a pressing head penetrates through the side face of the top of the rotary handle, a reset spring is arranged on the side face of the pressing head, and a plug is fixed at the bottom of the pressing head.

Further, the pressing head and the plug are elastically connected with the rotary handle through a reset spring, and the plug penetrates through the surface of the rotary handle and is arranged on the same horizontal plane with the slot.

Further, the two sides of the first assembly part and the second assembly part are fixed with connecting pieces, through holes are formed in the surfaces of the connecting pieces, and reinforcing caps are fixed on one sides of the through holes.

Further, the right-angle hooks penetrate through the through holes, and the connecting pieces are fixed at the bottoms of the right-angle hooks.

The invention provides a flexible solar photovoltaic panel capable of being spliced, which has the following beneficial effects:

1. the flexible solar photovoltaic panels capable of being spliced are characterized in that a first assembly part and a second assembly part are respectively arranged on two sides of each flexible photovoltaic panel, two adjacent flexible photovoltaic panels are inserted into the splicing groove through the insertion plate, the insertion posts are inserted into the clamping grooves on two sides of the insertion plate under the elastic action of the telescopic springs, the two flexible photovoltaic panels are spliced together, the flexible photovoltaic panels are mutually spliced in the mode, the flexible photovoltaic panels are integrally formed, and the flexible photovoltaic panels can be completely bent to adapt to curved objects when the flexible photovoltaic panels are bent integrally, so that the assembly efficiency is improved.

2. The two sides of the first assembly part and the second assembly part are provided with the connecting pieces with the through holes, the right-angle hooks on the surfaces of the connecting pieces penetrate through the through holes to enable the first assembly part and the second assembly part which are distributed adjacently to be connected together, and therefore the plurality of flexible photovoltaic panels are in sheet-shaped regular distribution, and accordingly the flexible photovoltaic panels are bent integrally.

3. This flexible solar photovoltaic board that can splice makes drive gear rotate in order to drive chain along inside linear movement of spacing groove through rotating the handle to promote the picture peg to insert splice groove inside, and before rotating the handle, can press the pressure head through the mode of holding and make reset spring shrink, make the plug leave inside the slot, rotate the handle this moment and can smoothly rotate, and when loosening the handle of rotating after rotating, reset spring resets and promotes the plug to insert inside the slot that corresponds, follow-up rotation handle can't rotate under the condition of not pressing the pressure head, make drive gear also unable rotation, thereby avoid the picture peg to take place to remove privately.

4. When the rotary handle is rotated to drive the transmission gear to rotate, the transmission gear drives the other transmission gear to synchronously rotate in the same direction through the transmission belt, so that the two transmission chains synchronously move along the inside of the limit groove, and the plugboard can stably move.

Drawings

FIG. 1 is a schematic view of the connection appearance of a first fitting and a second fitting of a flexible solar photovoltaic panel capable of being spliced;

FIG. 2 is a schematic diagram showing the internal structure of a first fitting and a second fitting of a flexible solar photovoltaic panel capable of being spliced;

FIG. 3 is a schematic diagram of a top view of a drive chain of a flexible solar photovoltaic panel capable of being spliced according to the present invention;

FIG. 4 is an enlarged schematic view of the structure of the flexible solar photovoltaic panel of FIG. 2A;

fig. 5 is a schematic diagram of the internal structure of a rotary handle of a flexible solar photovoltaic panel capable of being spliced.

In the figure: 1. a flexible photovoltaic panel; 2. a, assembling a component; 201. a first fitting; 202. a splice groove; 203. a telescopic spring; 204. a driving plate; 205. inserting a column; 3. b, assembling a component; 301. a second fitting; 302. a storage groove; 303. a limit groove; 304. inserting plate; 305. a drive chain; 306. a transmission gear; 307. rotating the handle; 308. a clamping groove; 309. a transmission belt; 4. a handle sleeve; 5. a slot; 6. pressing head; 7. a return spring; 8. a plug; 9. a connecting piece; 10. a through hole; 11. a reinforcing cap; 12. a right-angle hook; 13. and a connecting piece.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the invention but are not intended to limit the scope of the invention.

As shown in fig. 1 to 4, the present invention provides the following technical solutions: a flexible solar photovoltaic panel capable of being spliced comprises a flexible photovoltaic panel 1, an A assembly component 2 and a B assembly component 3, wherein one side of the flexible photovoltaic panel 1 is fixedly provided with the A assembly component 2 through a screw, the B assembly component 3 is fixedly arranged on the other side of the flexible photovoltaic panel 1 through a screw, the A assembly component 2 comprises a first assembly part 201, a splicing groove 202, a telescopic spring 203, a stirring sheet 204 and an inserting column 205, the splicing groove 202 is formed in the first assembly part 201, the telescopic spring 203 is embedded in two sides of the splicing groove 202, the stirring sheet 204 is fixed at the end part of the telescopic spring 203, the inserting column 205 is fixed on the side surface of the stirring sheet 204, the B assembly component 3 comprises a second assembly part 301, a containing groove 302, a limiting groove 303, an inserting plate 304, a transmission chain 305, a transmission gear 306, a rotating grip 307 and a clamping groove 308, the containing groove 302 is formed in the second assembly part 301, the bottom of the accommodating groove 302 is provided with a limit groove 303, the inside of the accommodating groove 302 is provided with an inserting plate 304, the side surface of the inserting plate 304 is connected with a transmission chain 305, the side surface of the transmission chain 305 is meshed with a transmission gear 306, the surface of the transmission gear 306 is fixedly provided with a rotary handle 307, two sides of the inserting plate 304 are provided with clamping grooves 308, the top of the poking piece 204 penetrates through the first assembly 201, the poking piece 204 and the inserting column 205 are elastically connected with the first assembly 201 through a telescopic spring 203, the transmission chain 305 penetrates through the inside of the limit groove 303, the inserting plate 304 is in transmission connection with the rotary handle 307 through the transmission chain 305 and the transmission gear 306, the transmission gear 306 is in rotary connection with the second assembly 301, the transmission gear 306 is provided with two in total, the second assembly 301 is in clamping connection with the first assembly 201 through the inserting plate 304, the clamping grooves 308 and the inserting column 205, and the clamping grooves 308 are in one-to-one correspondence;

the operation is as follows, the both sides of flexible photovoltaic board 1 are provided with first assembly part 201 and second assembly part 301 respectively, make first assembly part 201 and second assembly part 301 hug closely between two adjacent flexible photovoltaic boards 1, the manual rotation rotates handle 307 makes transmission gear 306 rotate in order to drive chain 305 to move along the inside straight line of spacing groove 303, in order to promote picture peg 304 to insert splice groove 202 inside, then insert post 205 stretches out and inserts the draw-in groove 308 of picture peg 304 both sides under the elastic action of extension spring 203, thereby make first assembly part 201 and second assembly part 301 be connected and take place not to separate, repeat the operation and make a plurality of flexible photovoltaic boards 1 splice each other, thereby make a plurality of flexible photovoltaic boards 1 form a whole, thereby can make a plurality of flexible photovoltaic boards 1 complete the bending in order to adapt to curved object when crooked this whole, thereby be favorable to improving assembly efficiency, and when later stage need to separate two flexible photovoltaic boards 1, only need stir plate 204 and make extension spring 203 shrink, then promote separation first assembly part 201 and second assembly part 301, after the second assembly part 301 rotates, make picture peg 304 rotate to drive the inside drive chain 305 to make and take in the spacing groove 302 to take up the inside straight line of drive and move along the spacing groove 303.

As shown in fig. 2-3, the B-fitting assembly 3 further includes a belt 309, and the surface of the transmission gear 306 is engaged with the belt 309;

the specific operation is as follows, when the rotation handle 307 is rotated to drive the transmission gear 306 to rotate, the transmission gear 306 drives the other transmission gear 306 to synchronously rotate in the same direction through the transmission belt 309, so that the two transmission chains 305 synchronously move along the inside of the limit groove 303, and the insert plate 304 can stably move.

As shown in fig. 1-2 and 5, a handle sleeve 4 is arranged on the surface of the second assembly 301, a rotary handle 307 is penetrated in the handle sleeve 4, a slot 5 is tightly arranged on the inner wall of the handle sleeve 4 in a ring shape, a pressing head 6 is penetrated on the side surface of the top of the rotary handle 307, a reset spring 7 is arranged on the side surface of the pressing head 6, a plug 8 is fixed on the bottom of the pressing head 6, the pressing head 6 and the plug 8 are elastically connected with the rotary handle 307 through the reset spring 7, the plug 8 penetrates through the surface of the rotary handle 307 and is arranged on the same horizontal plane with the slot 5,

the specific operation is as follows, before rotating the rotation grip 307, the pressing head 6 is pressed by hand to shrink the reset spring 7, so that the plug 8 leaves the inside of the slot 5, at this time, the rotation grip 307 can smoothly rotate, and when the rotation grip 307 is released after the rotation is finished, the reset spring 7 resets to push the plug 8 to be inserted into the corresponding slot 5, and then the rotation grip 307 cannot rotate under the condition that the pressing head 6 is not pressed, so that the transmission gear 306 cannot rotate, and the private movement of the plugboard 304 is avoided.

As shown in fig. 1-2, the two sides of the first assembly part 201 and the second assembly part 301 are fixed with connecting pieces 9, the surfaces of the connecting pieces 9 are provided with through holes 10, one side of each through hole 10 is fixed with a reinforcing cap 11, the inside of each through hole 10 is penetrated with a right-angle hook 12, and the bottom of each right-angle hook 12 is fixed with a connecting piece 13;

the method specifically comprises the following steps that two sides of a first assembly part 201 and a second assembly part 301 are provided with connecting pieces 9 with through holes 10, right-angle hooks 12 on the surfaces of the connecting pieces 13 penetrate through the through holes 10 to enable the first assembly parts 201 and the second assembly parts 301 which are adjacently distributed to be connected together, so that a plurality of flexible photovoltaic panels 1 are in sheet-shaped regular distribution, the flexible photovoltaic panels 1 are bent integrally, the right-angle hooks 12 penetrate through the through holes 10 and face towards the reinforcing caps 11 and are inserted into the reinforcing caps 11, and if the flexible photovoltaic panels 1 around the connecting pieces 13 are pulled by external force, the right-angle hooks 12 are further inserted into the reinforcing caps 11 under the action of the external force, and therefore falling of the right-angle hooks 12 is prevented.

In summary, as shown in fig. 1-5, when the flexible solar photovoltaic panel capable of being spliced, first assembly parts 201 and second assembly parts 301 are respectively arranged on two sides of a flexible photovoltaic panel 1, the first assembly parts 201 are tightly attached to the second assembly parts 301 between two adjacent flexible photovoltaic panels 1, at this time, a manual rotation handle 307 rotates a transmission gear 306 to drive a transmission chain 305 to linearly move along the inside of a limit groove 303 so as to push a plugboard 304 to be inserted into a splice groove 202, then a plugboard 205 stretches out under the elastic action of a telescopic spring 203 and is inserted into a clamping groove 308 on two sides of the plugboard 304, thereby connecting the first assembly parts 201 and the second assembly parts 301 without separation, repeating the operations to mutually splice a plurality of flexible photovoltaic panels 1, thereby forming a whole of the plurality of flexible photovoltaic panels 1, and completely bending the plurality of flexible photovoltaic panels 1 to adapt to curved objects when bending the whole, thereby being beneficial to improving the assembly efficiency;

when the rotating handle 307 is rotated to drive the transmission gear 306 to rotate, the transmission gear 306 drives the other transmission gear 306 to synchronously rotate in the same direction through the transmission belt 309, so that the two transmission chains 305 synchronously move along the inside of the limiting groove 303, and the plugboard 304 can stably move;

the two sides of the first assembly part 201 and the second assembly part 301 are provided with the connecting pieces 9 with the through holes 10, the right-angle hooks 12 on the surfaces of the connecting pieces 13 penetrate through the through holes 10 to enable the first assembly part 201 and the second assembly part 301 which are adjacently distributed to be connected together, so that a plurality of flexible photovoltaic panels 1 are in sheet-shaped regular distribution, the flexible photovoltaic panels 1 are bent integrally, the right-angle hooks 12 face the reinforcing caps 11 after penetrating through the through holes 10 and are inserted into the reinforcing caps 11, and if the flexible photovoltaic panels 1 around the connecting pieces 13 are pulled by external force, the right-angle hooks 12 are further inserted into the reinforcing caps 11 under the action of the external force, so that the right-angle hooks 12 are prevented from falling off;

before rotating the rotating grip 307, the pressing head 6 is pressed by hand to shrink the reset spring 7, so that the plug 8 leaves the inside of the slot 5, at this time, the rotating grip 307 can smoothly rotate, and when the rotating grip 307 is released after the rotation is finished, the reset spring 7 resets to push the plug 8 to be inserted into the corresponding slot 5, and then the rotating grip 307 cannot rotate under the condition that the pressing head 6 is not pressed, so that the transmission gear 306 cannot rotate, and the situation that the plugboard 304 moves privately is avoided;

when two flexible photovoltaic panels 1 are required to be separated in the later stage, only the poking piece 204 is poked to enable the telescopic spring 203 to shrink, then the first assembly part 201 and the second assembly part 301 are pushed to be separated, after the second assembly part 301 is separated, the rotating handle 307 is rotated to enable the transmission gear 306 to rotate so as to drive the transmission chain 305 to linearly move along the inside of the limiting groove 303, and the inserting plate 304 is retracted into the containing groove 302.

The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides a flexible solar photovoltaic board that can splice, includes flexible photovoltaic board (1), A assembly component (2) and B assembly component (3), its characterized in that: one side of the flexible photovoltaic panel (1) is fixed with an A assembly component (2) through a screw, the B assembly component (3) is fixed on the other side of the flexible photovoltaic panel (1) through a screw, the A assembly component (2) comprises a first assembly part (201), a splicing groove (202), a telescopic spring (203), a stirring sheet (204) and a plug-in column (205), the splicing groove (202) is formed in the first assembly part (201), the telescopic spring (203) is embedded in two sides of the splicing groove (202), the stirring sheet (204) is fixed at the end part of the telescopic spring (203), the plug-in column (205) is fixed on the side surface of the stirring sheet (204), the B assembly component (3) comprises a second assembly part (301), a storage groove (302), a limiting groove (303), a plug-in plate (304), a transmission chain (305), a transmission gear (306), a rotating handle (307) and a clamping groove (308), a limiting groove (303) is formed in the interior of the second assembly part (301), the bottom of the storage groove (302) is provided with the limiting groove (302), the stirring sheet (204) is fixed with a stirring chain (305), the side surface (305), the surface of the transmission gear (306) is fixed with a rotary handle (307), and clamping grooves (308) are formed in two sides of the plugboard (304);

the top of the stirring piece (204) penetrates through the first assembly part (201), and the stirring piece (204) and the inserting column (205) are elastically connected with the first assembly part (201) through the telescopic spring (203);

the transmission chain (305) is arranged in the limit groove (303) in a penetrating way, and the plugboard (304) is in transmission connection with the rotary handle (307) through the transmission chain (305) and the transmission gear (306);

the transmission gears (306) are rotationally connected with the second assembly part (301), and the transmission gears (306) are provided with two transmission gears;

the second assembly part (301) is in clamping connection with the first assembly part (201) through the plugboard (304), the clamping groove (308) and the inserting column (205), and the inserting column (205) and the clamping groove (308) are arranged in one-to-one correspondence;

the two sides of the first assembly part (201) and the second assembly part (301) are fixed with connecting pieces (9), the surfaces of the connecting pieces (9) are provided with through holes (10), and one side of each through hole (10) is fixed with a reinforcing cap (11);

the inside of through-hole (10) runs through has right angle couple (12), and the bottom of right angle couple (12) is fixed with link (13).

2. A flexible solar photovoltaic panel capable of being spliced according to claim 1, wherein: the B assembly component (3) further comprises a transmission belt (309), and the surface of the transmission gear (306) is meshed with the transmission belt (309).

3. A flexible solar photovoltaic panel capable of being spliced according to claim 1, wherein: the surface of second assembly part (301) is provided with handle cover (4), and handle cover (4) inside runs through has rotation handle (307), slot (5) have been closely offered to the shape of being annular on the inner wall of handle cover (4), the top side of rotation handle (307) is run through and is pressed first (6), and is provided with reset spring (7) pressing the side of first (6), the bottom of pressing first (6) is fixed with plug (8).

4. A flexible solar photovoltaic panel capable of being spliced according to claim 3, wherein: the pressing head (6) and the plug (8) are elastically connected with the rotary handle (307) through a return spring (7), and the plug (8) penetrates through the surface of the rotary handle (307) and is arranged on the same horizontal plane with the slot (5).