CN220440598U - Fixing structure for photovoltaic panel installation - Google Patents

Abstract

The application relates to photovoltaic board installation field provides a fixed knot constructs for photovoltaic board installation, include: the support rod and the fixing assembly comprise a plug connector, a matching piece and a plurality of matching strips; the plug connector comprises an abutting part and a plug connection part, the plug connection part is provided with a plug connection groove and a connecting groove along the length direction, the plug connection groove and the connecting groove penetrate through one end of the plug connection part far away from the abutting part along the length direction, the width of the plug connection groove is larger than that of the connecting groove, and a plug connection strip is formed between two adjacent plug connection grooves; the matching piece comprises a matching part and a fixing part, at least two matching strips are arranged on two side surfaces of the matching part in the thickness direction, and a matching groove is formed between every two adjacent matching strips; when the plug connector is matched with the matching piece, the plug connector strip is inserted into the matching groove, the matching strip is inserted into the plug connector groove, a space is reserved between the fixing part and the supporting rod, and the problem that the fixing structure is suitable for photovoltaic panels of different sizes can be solved.

Description

Fixing structure for photovoltaic panel installation

Technical Field

The application relates to the technical field of photovoltaic panel installation, in particular to a fixing structure for photovoltaic panel installation.

Background

The photovoltaic board passes through fixed knot to be installed on ground or roof, and fixed knot constructs including fixed subassembly, and when photovoltaic board and support frame were connected, need fix through fixed subassembly, because the different demands of different groups, the size of photovoltaic board is different, and the size of photovoltaic board is different thickness just different, consequently, research a fixed knot who is convenient for adapt to not unidimensional photovoltaic board is the research direction of this product.

Disclosure of Invention

In order to enable fixation of different sizes of photovoltaic panels, the present application provides a fixation structure for photovoltaic panel installation.

The application provides a fixed knot constructs for photovoltaic board installation adopts following technical scheme:

the fixing structure for installing the photovoltaic panel comprises a supporting rod and a fixing assembly, wherein the fixing assembly comprises a plug connector, a matching piece and a plurality of matching strips;

the plug connector comprises an abutting part and a plug connection part, wherein the abutting part is perpendicular to the plug connection part, the abutting part is detachably connected with the supporting rod, the plug connection part is provided with plug connection grooves and connecting grooves along the length direction, at least two plug connection grooves are formed in the plug connection grooves and the connecting grooves, the plug connection grooves and the connecting grooves are sequentially staggered along the width direction of the plug connection part and penetrate through one end, far away from the abutting part, of the plug connection part, the plug connection grooves and the connecting grooves penetrate through the plug connector along the length direction, the width of the plug connection grooves is larger than that of the connecting grooves, and plug connection strips are formed between the adjacent two plug connection grooves;

the matching piece comprises a matching part and a fixing part, wherein at least two matching strips are arranged along two side surfaces of the thickness direction of the matching part, the matching strips on two sides are arranged at intervals along the length direction of the matching part, and a matching groove is formed between every two adjacent matching strips;

when the plug connector is matched with the matching component, the plug connector strip is plugged in the matching groove, the matching strip is plugged in the plug connector groove, and a space is reserved between the fixing part and the supporting rod.

Through adopting above-mentioned technical scheme, place the photovoltaic board on the bracing piece, the photovoltaic board is arranged in between bracing piece and the fixed part, and the fixed part supports to press fixedly to the photovoltaic board, when the photovoltaic board of different sizes needs to be installed, peg graft the cooperation piece in different jack grooves according to the size of photovoltaic board for change the high adaptation not unidimensional photovoltaic board of cooperation piece, consequently only need change the grafting position of cooperation piece, can realize fixing the photovoltaic board of different sizes.

Optionally, the parts of the plugging grooves wider than the two sides of the connecting groove are respectively inclined towards opposite directions and are opened at one side of the abutting part; the matching strips on two sides of the matching part are inclined to be far away from one side of the abutting part, and the inclination angle of the matching part corresponds to the inclination angle of the inserting groove.

Through adopting above-mentioned technical scheme for when the cooperation piece pegged graft in the grafting inslot, owing to inclination's setting, the cooperation piece can support down along the angle better and press, and the cooperation piece can peg graft in the grafting inslot more steadily, makes cooperation piece and plug connector can cooperate more steadily, and the plug connector can support photovoltaic board better.

Optionally, the corner of one side of the matching strip away from the matching part is arranged in an arc shape, and the inserting groove is arranged corresponding to the matching strip; the corner of the grafting strip, which is abutted with the matching part, is arranged in an arc shape, and the matching groove is arranged corresponding to the grafting strip.

By adopting the technical scheme, when the plug connector and the matching piece are mutually inserted, the abutting area is increased, and the abrasion between the plug connector and the matching piece can be reduced, so that the plug connector and the matching piece can still be mutually inserted more stably after long-term use.

Optionally, a plurality of abdicating grooves are formed at a side, facing the support rod, of the fixing portion, and an abutting strip is formed between the adjacent abdicating grooves.

Through adopting above-mentioned technical scheme, after the groove of stepping down is seted up for the fixed part supports when pressing in the photovoltaic board, increased with the frictional force between the photovoltaic board, so that the fixed part can play the fixed effect of supporting the pressure to the photovoltaic board more steadily.

Optionally, a side of the fixing portion facing away from the support rod is cut along a length direction to form an arc portion.

Through adopting above-mentioned technical scheme for when handheld fixed part carries out grafting with cooperation piece and plug connector, people's hand can be more comfortable.

Optionally, the support rod further comprises a fixing block, a sliding groove is formed in the support rod along the length direction, the fixing block is arranged in the sliding groove, the fixing block is detachably connected with the plug connector, and the fixing block is abutted to two faces, deviating from the support rod, of the plug connector.

Through adopting above-mentioned technical scheme, fix the plug connector through the fixed block to the plug connector can be conveniently fixed with the bracing piece, and the fixed block slides along the direction of sliding tray and can change the sliding position of photovoltaic board, can conveniently install photovoltaic board on the different positions of bracing piece, so that photovoltaic board can the furthest absorb sunlight.

Optionally, the fixing device further comprises a fixing bolt, wherein the fixing bolt penetrates through the abutting portion to be in threaded connection with the fixing block, and a nut of the fixing bolt abuts against the abutting portion.

By adopting the technical scheme, when the fixing assembly is required to be fixed, the fixing bolt is screwed tightly, so that the abutting part and the fixing block are abutted against the surface, deviating from the supporting rod, of the supporting rod, and the matching piece is fixed through the fixing block; when the position of the fixing component needs to be moved, the fixing bolt is unscrewed, so that the fixing component can be moved, and the fixing and the movement of the fixing component can be facilitated.

Optionally, the plug connector further includes an abutment bar, the abutment bar is connected to a side of the abutment portion away from the plug portion, and the abutment bar faces towards a side of the abutment portion away from the plug portion, the abutment bar abuts against the support bar, and a space is reserved between the abutment portion and the support bar.

Through adopting above-mentioned technical scheme, when the fixed part supports and presses on the photovoltaic board, when screwing the butt portion through fixing bolt, because the butt of butt layering, fixing bolt produces the power towards the bracing piece to the butt portion, because leave the interval between butt portion and the bracing piece, the butt portion can produce the trend of deformation downwards, produces deformation in the interval for the butt portion can drive the fixed part and support the photovoltaic board better when deformation, so that it is more stable to fix the photovoltaic board.

In summary, the present application includes at least one of the following beneficial effects:

1. the photovoltaic plate is placed on the supporting rod, the photovoltaic plate is placed between the supporting rod and the fixing part, the fixing part is used for pressing and fixing the photovoltaic plate, when the photovoltaic plates with different sizes are required to be installed, the matching pieces are inserted into different inserting grooves according to the size of the photovoltaic plates, so that the height of the matching pieces is changed to adapt to the photovoltaic plates with different sizes, and therefore, the photovoltaic plates with different sizes can be fixed only by changing the inserting positions of the matching pieces;

2. when making the cooperation piece peg graft in the grafting inslot, owing to inclination's setting, the cooperation piece can support down to press along the angle better, and the cooperation piece can peg graft in the grafting inslot more steadily for cooperation piece and grafting piece can cooperate more steadily, and the grafting piece can support photovoltaic board better.

Drawings

FIG. 1 is a schematic structural view of a fixation structure for photovoltaic panel installation of the present application;

FIG. 2 is an enlarged schematic view at A in FIG. 1;

FIG. 3 is a schematic structural view of a fixation structure for photovoltaic panel installation of the present application;

fig. 4 is an enlarged schematic view at B in fig. 3.

Reference numerals illustrate: 1. a support rod; 2. a fixing assembly; 21. a plug-in component; 211. an abutting portion; 212. a plug-in part; 213. a pressing bar; 22. a mating member; 221. a mating portion; 222. a fixing part; 23. a mating strip; 3. a plug-in groove; 4. a connecting groove; 5. a mating groove; 6. a plug strip; 7. a relief groove; 8. an abutment bar; 9. an arc part; 10. a fixed block; 11. a sliding groove; 12. and (5) fixing bolts.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-4.

The embodiment of the application discloses a fixed knot constructs for photovoltaic board installation. Referring to fig. 1, a fixing structure for installation of a photovoltaic panel includes a support bar 1 for supporting the photovoltaic panel and a fixing assembly 2 for fixing the photovoltaic panel, the support bar 1 being provided with a fixing member 2.

Referring to fig. 2, the fixing assembly 2 includes a plug 21, a mating member 22 and a plurality of mating strips 23, the plug 21 includes an abutting portion 211 and a plug portion 212, the abutting portion 211 is perpendicular to the plug portion 212, the abutting portion 211 and the plug portion 212 are integrally formed, and the abutting portion 211 and the plug portion 212 form an L-shaped block structure. The plugging portion 212 is provided with the plugging groove 3 and the connecting groove 4 along the length direction, the length direction of the plugging portion 212 is the horizontal direction, the plugging groove 3 and the connecting groove 4 are provided with at least two, the plugging groove 3 and the connecting groove 4 are sequentially staggered along the width direction of the plugging portion 212 and are communicated with one end of the plugging portion 212 far away from the abutting portion 211, the plugging groove 3, the connecting groove 4, the plugging groove 3 and the connecting groove 4 … are sequentially staggered along the plugging portion 212 from bottom to top, the five plugging grooves 3 and the five connecting grooves 4 are provided in the embodiment, the uppermost connecting groove 4 is communicated with one end of the plugging portion 212 far away from the abutting portion 211, and the plugging groove 3 and the connecting groove 4 are respectively communicated with the plugging member 21 along the length direction, so that the matching member 22 can be inserted into the plugging member 21 from one side.

The width of the inserting grooves 3 is larger than that of the connecting grooves 4, inserting strips 6 are formed between two adjacent inserting grooves 3, and the inserting strips 6 are located on two sides of the connecting grooves 4 in the width direction. The fitting piece 22 includes the fitting part 221 and the fixed part 222, this embodiment fitting part 221 and fixed part 222 are perpendicular and integrated into one piece setting, make fitting piece 22 be "L" cubic structure, the fitting strip 23 sets up two at least along the both sides face of fitting part 221 thickness direction, the even interval setting of length direction along the fitting part 221 of fitting strip 23 of both sides, interval between the fitting strip 23 is the same with the interval between the jack groove 3, the fitting strip 23 corresponds with jack groove 3, namely when the jack piece 21 cooperates with fitting piece 22, the fitting strip 23 can be partly or accomplish to insert in jack groove 3, this embodiment fitting strip 23 inserts in jack groove 3 completely, form the fitting groove 5 between two adjacent fitting strips 23, jack strip 6 is pegged graft in fitting groove 5. Since the mating member 22 is inserted into the plug member 21 from the horizontal direction, there is a friction force between the mating member 22 and the plug member 21, so that the mating member 22 will not fall off from the plug member 21 when the fixing portion 222 abuts against the photovoltaic panel.

At this time, a space is reserved between the fixing portion 222 and the supporting rod 1, the photovoltaic panel is located between the fixing portion 222 and the supporting rod 1, the fixing portion 222 generates a pressing force on the photovoltaic panel, and the photovoltaic panel is matched and fixed with the supporting rod 1. When the photovoltaic panels with different sizes are required to be installed, the matching piece 22 is pulled out from the plug-in piece 21 and is inserted into the different plug-in grooves 3, the height of the matching piece 22 is changed, namely, the distance between the matching piece 22 and the supporting rod 1 is changed, so that the size of the photovoltaic panels is matched with that of the photovoltaic panels, and the photovoltaic panels with different sizes can be fixed through the plug-in connection of the matching piece 22 and the plug-in piece 21.

In some embodiments, with continued reference to fig. 2, the portions of the plugging slot 3 wider than the two sides of the connecting slot 4 are respectively inclined in opposite directions to one side of the abutting portion 211, i.e. the two sides of the plugging slot 3 are opened downwards, and the whole plugging slot 3 is opened in an arc structure; the fitting bars 23 on both sides of the fitting portion 221 are disposed obliquely away from the abutting portion 211, i.e., the fitting bars 23 on both sides of the fitting portion 221 are disposed obliquely upward and symmetrically along the symmetry axis of the thickness direction of the fitting portion 221; the inclination angle of the mating piece 22 corresponds to the inclination angle of the plugging slot 3, that is, the mating strip 23 can be completely or partially inserted into the plugging slot 3 to be clamped with the plugging piece 21, and the mating strip 23 can be completely inserted into the plugging slot 3 in this embodiment. The insertion groove 3 is inclined downward so that the mating strip 23 has downward pressing force after being inserted into the insertion groove 3, so that the fixing portion 222 can be pressed against the photovoltaic panel more stably.

In some embodiments, the corner of the mating strip 23 far away from the mating portion 221 is arranged in an arc shape, and the plugging slot 3 is arranged corresponding to the mating strip 23, that is, when the mating strip 23 is inserted into the plugging slot 3, the corners of the plugging portion 212 corresponding to the plugging slot 3 are attached and all have an arc structure; the opposite corners of the corner where the plug strip 6 is abutted with the matching part 221 are arranged in an arc shape, and the matching groove 5 is correspondingly arranged with the plug strip 6, namely, when the plug strip 6 is inserted into the matching groove 5, the corners of the matching part 221 corresponding to the matching groove 5 are attached, and the corners are all in an arc structure. When the mating portion 221 is inserted into the insertion portion 212, the contact area can be increased, and the corners of the contact with each other are softer, so that the abrasion between the mating portion 221 and the insertion portion 212 can be reduced.

In some embodiments, a plurality of relief grooves 7 are uniformly spaced apart from one side of the fixing portion 222 facing the support rod 1, the relief grooves 7 are arranged along the length direction of the fixing portion 222, and an abutting strip 8 is formed between adjacent relief grooves 7, so that when the fixing portion 222 abuts against the photovoltaic panel, the friction force between the fixing portion 222 and the photovoltaic panel can be increased, and the photovoltaic panel can be stably pressed and fixed. In some embodiments, the side of the fixing portion 222 facing away from the support rod 1 is cut along the length direction to form the circular arc portion 9, and the circular arc portion 9 is cut along the length direction of the fixing portion 222, so that the human hand can feel more comfortable when holding the fixing portion 222.

Referring to fig. 3 and 4, the abutment 211 is detachably connected to the support bar 1, so that the plug 21 can change position, better fixing the photovoltaic panel.

In some embodiments, referring to fig. 4, the fixing structure for installing the photovoltaic panel further includes a fixing block 10, the support rod 1 is provided with a sliding groove 11 along the length direction, the fixing block 10 is in the sliding groove 11, the fixing block 10 is detachably connected with the plug-in connector 21, and the fixing block 10 and the plug-in connector 21 are abutted against two faces, facing away from the support rod 1, so that the plug-in connector 21 is fixed through the fixing block 10.

In some embodiments, the fixing structure for installing the photovoltaic panel further comprises a fixing bolt 12, the fixing bolt 12 is threaded through the abutting portion 211 and is in threaded connection with the fixing block 10, a nut of the fixing bolt 12 abuts against the abutting portion 211, and the fixing block 10 and the plug connector 21 are detachably connected through the fixing bolt 12, so that the fixing and the moving of the fixing block 10 can be facilitated, and when the plug connector 21 needs to be fixed, the fixing bolt 12 can be fixed by screwing; when the plug-in connector 21 is required to be moved to fix the photovoltaic panels at different positions, the fixing bolts 12 are unscrewed, the positions of the fixing blocks 10 are moved, and the fixing bolts 12 are screwed after the fixing bolts are moved to the corresponding positions.

In some embodiments, the plug 21 further includes an abutment 213, where the abutment 213 is connected to a side of the abutment 211 away from the plug 212, and the abutment 213 and the abutment 211 are integrally formed. The pressing strip 213 faces to one side of the abutting portion 211 away from the inserting portion 212, the pressing strip 213 abuts against the support rod 1, and a space is reserved between the abutting portion 211 and the support rod 1. The fixing structures for photovoltaic panel installation in this embodiment are all metal materials with certain elastic capability, for example: aluminum alloy, steel and the like, the fixing bolt 12 has an abutting force to the abutting portion 211 in the screwing process, and because a gap is reserved between the abutting portion 211 and the supporting rod 1, the abutting portion 211 has a downward deformation capacity when the fixing bolt 12 abuts against the abutting portion 211 downwards, so that certain deformation is generated in the gap, the plug connector 21 drives the matching piece 22 downwards, the photovoltaic panel can be abutted against the photovoltaic panel more stably, and the photovoltaic panel can be fixed better.

The implementation principle of the fixing structure for photovoltaic panel installation is as follows: when the photovoltaic panels with different sizes are required to be installed, the matching piece 22 is inserted into the inserting groove 3 and is clamped with the inserting piece 21, and the fixing portion 222 is just pressed on the photovoltaic panels according to the thickness of the photovoltaic panels in the inserting grooves 3, so that the photovoltaic panels are abutted between the fixing portion 222 and the supporting piece, and the photovoltaic panels can be well fixed. Therefore, the position of the mating member 22 inserted into the inserting member 21 is changed, and the distance between the fixing portion 222 and the supporting member is changed, so that the photovoltaic panel with different sizes can be adapted to be fixed.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. A fixed knot constructs for photovoltaic board installation, its characterized in that: the device comprises a supporting rod (1) and a fixing assembly (2), wherein the fixing assembly (2) comprises a plug connector (21), a matching piece (22) and a plurality of matching strips (23);

the plug connector (21) comprises an abutting part (211) and a plug connection part (212), the abutting part (211) is perpendicular to the plug connection part (212), the abutting part (211) is detachably connected with the supporting rod (1), the plug connection part (212) is provided with a plug connection groove (3) and a connecting groove (4) along the length direction, the plug connection groove (3) and the connecting groove (4) are provided with at least two, the plug connection groove (3) and the connecting groove (4) are sequentially staggered along the width direction of the plug connection part (212) and penetrate through one end, far away from the abutting part (211), of the plug connection part (212), the plug connection groove (3) and the connecting groove (4) penetrate through the plug connector (21) along the length direction, the width of the plug connection groove (3) is larger than the width of the connecting groove (4), and a plug connection strip (6) is formed between two adjacent plug connection grooves (3);

the matching piece (22) comprises a matching part (221) and a fixing part (222), wherein at least two matching strips (23) are arranged along two side surfaces of the matching part (221) in the thickness direction, the matching strips (23) on two sides are arranged at intervals along the length direction of the matching part (221), and a matching groove (5) is formed between every two adjacent matching strips (23);

when the plug connector (21) is matched with the matching piece (22), the plug strip (6) is plugged in the matching groove (5), the matching strip (23) is plugged in the plugging groove (3), and a space is reserved between the fixing part (222) and the supporting rod (1).

2. A fixing structure for photovoltaic panel installation according to claim 1, characterized in that: the parts of the inserting grooves (3) which are wider than the two sides of the connecting grooves (4) are respectively inclined towards opposite directions and are opened at one side of the abutting part (211); the matching strips (23) on two sides of the matching part (221) are arranged obliquely to the side far away from the abutting part (211), and the inclination angle of the matching piece (22) corresponds to the inclination angle of the inserting groove (3).

3. A fixing structure for photovoltaic panel installation according to claim 2, characterized in that: the corner of one side of the matching strip (23) far away from the matching part (221) is arranged in an arc shape, and the inserting groove (3) is arranged corresponding to the matching strip (23); the corners of the plug strip (6) abutted with the matching parts (221) are arranged in an arc shape, and the matching grooves (5) are arranged corresponding to the plug strip (6).

4. A fixing structure for photovoltaic panel installation according to claim 1, characterized in that: a plurality of abdication grooves (7) are formed in one side, facing the support rod (1), of the fixing part (222), and abutting strips (8) are formed between the adjacent abdication grooves (7).

5. A fixing structure for photovoltaic panel installation according to claim 1, characterized in that: one side of the fixing part (222) away from the supporting rod (1) is cut along the length direction to form an arc part (9).

6. A fixing structure for photovoltaic panel installation according to claim 1, characterized in that: still include fixed block (10), bracing piece (1) have seted up sliding tray (11) along length direction, fixed block (10) in sliding tray (11), fixed block (10) with plug connector (21) can dismantle and be connected, fixed block (10) with plug connector (21) butt in two faces that bracing piece (1) deviate from mutually.

7. A fixing structure for photovoltaic panel installation according to claim 6, characterized in that: the fixing device further comprises a fixing bolt (12), wherein the fixing bolt (12) penetrates through the abutting portion (211) to be in threaded connection with the fixing block (10), and a nut of the fixing bolt (12) abuts against the abutting portion (211).

8. A fixing structure for photovoltaic panel installation according to claim 7, characterized in that: the plug connector (21) further comprises a pressing strip (213), the pressing strip (213) is connected to one side, away from the plug connector (212), of the abutting portion (211), the pressing strip (213) faces to one side, away from the plug connector (212), of the abutting portion (211), the pressing strip (213) abuts to the support rod (1), and a space is reserved between the abutting portion (211) and the support rod (1).