CN219918787U - Photovoltaic module installing support - Google Patents

Abstract

The utility model relates to the technical field of solar energy photovoltaics, and discloses a photovoltaic module mounting bracket which comprises a plurality of upright posts vertically arranged on the ground and a supporting frame arranged at the top ends of the upright posts, wherein a photovoltaic panel is arranged on a top plate of the supporting frame, the upright posts and the supporting frame are connected through a sliding component, a supporting beam is arranged between the upright posts and the supporting frame, one end of the supporting beam is connected with the side wall of the upright posts, the other end of the supporting beam is connected with the supporting frame, each upright post comprises a connecting cylinder vertically arranged on the ground and a connecting rod slidingly arranged in the connecting cylinder, a plurality of connecting holes are formed in the side walls of the connecting cylinder and the connecting rod along the length direction of the upright posts, and connecting pins are spliced and matched at the connecting holes. The utility model has the effect of improving the convenience of assembling the mounting bracket.

Description

Photovoltaic module installing support

Technical Field

The utility model relates to the technical field of solar photovoltaic, in particular to a photovoltaic module mounting bracket.

Background

The photovoltaic module power generation is a device for directly converting sunlight into electric energy by using a photovoltaic panel. The photovoltaic panel is generally installed on the installing support that has certain inclination to the sunlight that the photovoltaic panel can be as far as possible shined improves photovoltaic module generating efficiency.

At present, the mounting bracket is generally composed of members such as a cross beam, an inclined beam, a front upright post, a rear upright post and the like, and the members are mainly formed by welding.

In view of the above-described related art, the inventors considered that welding was performed on the photovoltaic module mounting site, and that there was a disadvantage in that production and production were inconvenient and the mounting efficiency was low.

Disclosure of Invention

In order to improve convenience of assembling the mounting bracket, the utility model provides a photovoltaic module mounting bracket.

The utility model provides a photovoltaic module mounting bracket which adopts the following technical scheme:

the utility model provides a photovoltaic module installing support, includes a plurality of vertical setting in the stand on ground and arranges in the braced frame on a plurality of stand tops, the photovoltaic board is arranged in braced frame roof, the stand with braced frame connects through sliding component, the stand with be provided with a supporting beam between the braced frame, the one end of supporting beam with the stand lateral wall is connected, the other end of supporting beam with braced frame connects, every the stand all includes vertical setting in the connecting cylinder on ground and slides and arrange in the connecting rod inside the connecting cylinder, the connecting cylinder with a plurality of connecting holes have all been seted up along the lateral wall of connecting rod stand length direction, the spliced fit has the connecting pin in connecting hole department.

Through adopting above-mentioned technical scheme, when the installing support is assembled to needs, install the stand subaerial, according to the design needs, adjust the overall length of connecting cylinder and connecting rod, and insert the connecting pin in proper order in the connecting hole on connecting cylinder and the connecting rod, carry out spacingly through the connecting pin to connecting cylinder and connecting rod, make stand overall length fixed, then install braced frame at the stand top, and carry out auxiliary stay to stand and braced frame through supporting beam, thereby, when having promoted the convenience of equipment installing support, promoted the adaptability and the steadiness of installing support.

Optionally, the guide way has been seted up on connecting rod lateral wall length direction, be provided with the gib block on the connecting cylinder inside wall, the gib block with guide way sliding fit.

Through adopting above-mentioned technical scheme, the connecting rod is when the inside slip of connecting cylinder, and the guide bar is spacing to the guide bar through the guide way, has reduced the possibility that the guide bar takes place to rock.

Optionally, the braced frame is including arranging in the sloping at stand top and arranging in the crossbeam at sloping top, sloping tip lateral wall is followed sloping length direction has seted up T shape spacing groove, slip subassembly part slip is arranged in spacing inslot, slip subassembly part with adjacent the connecting rod tip articulates.

Through adopting above-mentioned technical scheme, when installing the sloping on the stand, with slip subassembly part articulated at the top of connecting rod, then, place the spacing inslot portion with slip subassembly to according to the whole length of stand, adjust slip subassembly in spacing inslot portion, and then, the sloping adaptation stand of different length of being convenient for.

Optionally, the slip subassembly is including the slip is arranged in inside sliding block of spacing groove, place in the sliding strip on the lateral wall of sliding block bottom, place in the sliding rod on the lateral wall of sliding bottom, the sliding plate of sliding rod periphery and threaded connection are established at the claw nut of sliding rod periphery to the slip cover, the claw nut is located the sliding plate is kept away from one side of sloping, the sliding strip is close to the one end of stand with the connecting rod is articulated.

Through adopting above-mentioned technical scheme, the slider is when spacing inslot, and the spacing groove is spacing to the slider, has reduced the slider and has broken away from the possibility of sloping, slides the back to the settlement position at the slider, twists the claw nut, makes the claw nut compress tightly the rotor plate on sloping bottom lateral wall to make sloping and stand fixed.

Optionally, the cover is equipped with the slip cap on the connecting cylinder lateral wall, the sliding hole has been seted up on the slip cap lateral wall, the slip hole department grafting cooperation has the slide pin, a supporting beam's one end with the slip cap lateral wall articulates, a supporting beam's the other end with the sloping lateral wall articulates.

Through adopting above-mentioned technical scheme, when supporting stand and sloping through supporting beam, make the slip cap slide along the connecting cylinder, then articulated supporting beam tip and slip cap lateral wall, and then, promoted the work adaptability of supporting beam to insert sliding pin in proper order sliding hole and connecting hole, promoted the job stabilization nature of slip cap.

Optionally, a plurality of positioning grooves are formed in the side wall of the top of the oblique beam along the length direction of the beam, and the beam is in plug-in fit with the positioning grooves.

Through adopting above-mentioned technical scheme, when needs change the relative position of crossbeam and sloping, with crossbeam and different constant head tank grafting cooperation can, the constant head tank lateral wall is spacing to the crossbeam, has promoted the stability of crossbeam work.

Optionally, each side wall at the bottom of the positioning groove is provided with a fixing groove, the bottom of the cross beam is provided with a fixing block, and the fixing block is in plug-in fit with the fixing groove.

Through adopting above-mentioned technical scheme, when placing the crossbeam in the standing groove inside, insert the fixed block inside the fixed slot, the fixed slot is spacing the crossbeam through the fixed block, has further promoted the job stabilization nature of crossbeam.

Optionally, a chamfer is provided at the bottom of the fixed block.

Through adopting above-mentioned technical scheme, when the fixed block inserts the fixed slot, the chamfer has promoted the convenience that the fixed block inserted the fixed slot.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. when the installing support is assembled to the needs, install the stand on subaerial, according to the design needs, adjust the overall length of connecting cylinder and connecting rod, and insert the connecting pin in proper order in the connecting hole on connecting cylinder and the connecting rod, carry out spacingly to connecting cylinder and connecting rod through the connecting pin, make stand overall length fixed, then install braced frame at the stand top, and carry out auxiliary stay to stand and braced frame through supporting beam, thereby, when having promoted the convenience of equipment installing support, promoted installing support's adaptability and steadiness.

2. When the connecting rod slides in the connecting cylinder, the guide bar limits the guide bar through the guide groove, so that the possibility of shaking the guide bar is reduced.

Drawings

Fig. 1 is a schematic view of a photovoltaic panel in a state of placement in an embodiment of the present utility model.

Fig. 2 is a schematic overall structure of an embodiment of the present utility model.

FIG. 3 is a schematic diagram showing the connection relationship between the upright post and the support beam in the embodiment of the utility model.

Fig. 4 is a schematic view of a support frame structure embodying an embodiment of the present utility model.

Fig. 5 is a schematic view showing a structure of a sliding assembly according to an embodiment of the present utility model.

Reference numerals illustrate:

01. a photovoltaic panel; 1. a column; 11. a connecting cylinder; 111. a guide bar; 12. a connecting rod; 121. a guide groove; 13. a connecting pin; 14. a sliding sleeve; 15. a connection hole; 16. a sliding hole; 17. a sliding pin; 2. a support frame; 21. a sloping beam; 211. a positioning groove; 212. a fixing groove; 213. a limit groove; 22. a cross beam; 221. a fixed block; 3. a sliding assembly; 31. a sliding block; 32. a sliding bar; 33. a slide bar; 34. a sliding plate; 35. a claw nut; 4. a support beam.

Detailed Description

The utility model is described in further detail below in connection with fig. 1-5.

The embodiment of the utility model discloses a photovoltaic module mounting bracket.

Referring to fig. 1 and 2, a photovoltaic module mounting bracket includes a column 1, a support frame 2, and a support beam 4. The stand 1 is vertically installed on the ground, the braced frame 2 is installed at the top of the stand 1 through the sliding component 3, one end of the supporting beam 4 is connected with the stand 1, the other end of the supporting beam 4 is connected with the braced frame 2, and the photovoltaic panel 01 is installed at the top of the braced frame 2. The stand 1 is provided with a plurality of, and a plurality of stand 1 distribute along braced frame 2 circumference.

Referring to fig. 1 and 2, when the installation support needs to be assembled, the upright 1 is vertically installed on the ground, and the overall length of the upright 1 is adjusted, so that the supporting frame 2 has a certain inclination, after the supporting frame 2 is installed at the top of the upright 1, the supporting frame 2 is supported in an auxiliary manner through the supporting beam 4, and therefore, the overall stability of the installation support is improved on the basis of improving the convenience of assembling the photovoltaic module installation support.

Referring to fig. 2 and 3, the column 1 includes a connection cylinder 11, a connection rod 12 and a connection pin 13, the connection cylinder 11 is a square cylinder, the connection rod 12 is a square rod, the connection rod 12 is partially disposed inside the connection cylinder 11, and the connection rod 12 and the connection cylinder 11 are slidably engaged.

Referring to fig. 2 and 3, a guide bar 111 is integrally formed at a middle position of an inner side wall of the connecting cylinder 11 along a length direction of the connecting cylinder 11, a guide groove 121 is formed at a middle position of an outer side wall of the connecting rod 12 along the length direction of the connecting rod 12, and the guide bar 111 is slidably matched with the guide groove 121.

Referring to fig. 2 and 3, a plurality of connection holes 15 are formed in the side walls of the connection cylinder 11 and the connection rod 12, the connection holes 15 are uniformly distributed along the length direction of the upright post 1, and after the connection rod 12 slides to the set position of the connection cylinder 11, the connection pins 13 are sequentially inserted into the connection holes 15 of the connection cylinder 11 and the connection rod 12, so that the connection pins 13 limit the connection cylinder 11 and the connection rod 12.

Referring to fig. 2 and 4, the support frame 2 includes a diagonal beam 21 and a cross beam 22. The sloping 21 is located the top of stand 1, and crossbeam 22 is located the top of sloping 21, and a plurality of constant head tanks 211 have been seted up to sloping 21 top lateral wall, and a plurality of constant head tanks 211 are along sloping 21 length direction evenly distributed, and every constant head tank 211 all runs through sloping 21 width direction lateral wall, and fixed slot 212 has all been seted up to every constant head tank 211 bottom lateral wall. The side wall of the end part of the inclined beam 21 is provided with a T-shaped limit groove 213 along the length direction of the inclined beam 21, and the limit groove 213 penetrates through the side wall of the end part of the inclined beam 21.

Referring to fig. 2 and 4, the side wall of the bottom of the cross beam 22 is integrally formed with a plurality of fixing blocks 221, the fixing blocks 221 are uniformly distributed along the length direction of the cross beam 22, and the bottom of each fixing block 221 is provided with a chamfer.

Referring to fig. 2 and 4, when the support frame 2 is installed, the cross beam 22 is inserted and matched with the positioning grooves 211 at different positions according to design requirements, and the fixing blocks 221 are inserted and matched with the corresponding fixing grooves 212, so that the applicability and the assembly convenience of the support frame 2 are improved.

Referring to fig. 2, 4 and 5, the sliding assembly 3 includes a sliding block 31, a sliding bar 32, a sliding rod 33, a sliding plate 34, and a claw nut 35. The sliding bar 32 and the sliding bar 33 are all located on the same side of the sliding block 31, the length directions of the sliding bar 32 and the sliding bar 33 are consistent, the ends of the sliding bar 32 and the sliding bar 33 are welded with the sliding block 31, two sliding bars 33 are arranged, and the two sliding bars 33 are located on two sides of the sliding bar 32.

Referring to fig. 2, 4 and 5, the end of each sliding rod 33 is screw-coupled with a claw nut 35, each sliding rod 33 is slidably inserted through a sliding plate 34, and a sliding block 31 is interposed between the sliding plate 34 and the claw nut 35.

Referring to fig. 2, 4 and 5, when the diagonal member 21 and the column 1 are installed, the slide bar 32 is hinged to the column 1, and then the slide block 31 is placed in the limit groove 213 and the slide plate 34 is abutted against the bottom side wall of the diagonal member 21, and when the slide block 31 is slid to the set position, the slide plate 34 is pressed against the side wall of the diagonal member 21 by the claw nut 35.

Referring to fig. 2 and 3, the outer side wall of the connecting cylinder 11 is sleeved with a sliding sleeve 14 and a sliding pin 17, the sliding sleeve 14 is provided with a sliding hole 16, after the distance of the sliding sleeve 14 is adjusted, the sliding hole 16 and the connecting hole 15 are sequentially penetrated through the sliding pin 17, one end of the supporting beam 4 is hinged with the side wall of the inclined beam 21, and the other end of the supporting beam 4 is hinged with the sliding sleeve 14.

The implementation principle of the photovoltaic module mounting bracket provided by the embodiment of the utility model is as follows: when the installation bracket is assembled, the connecting cylinder 11 is installed on the ground, the positions of the connecting rod 12 and the connecting cylinder 11 are adjusted, the integral length of the upright post 1 is adjusted, then the sliding strip 32 is hinged with the side wall at the top end of the connecting rod 12, the sliding block 31 is arranged in the limiting groove 213, after the inclined beam 21 reaches the set position, the sliding plate 34 is pressed on the side wall at the bottom of the inclined beam 21 through the claw nut 35, the cross beam 22 is arranged in the positioning groove 211, the fixing block 221 is inserted into the fixing groove 212, then the two ends of the supporting beam 4 are respectively hinged with the inclined beam 21 and the sliding sleeve 14, so that the installation bracket is assembled, and after the installation bracket is assembled, the photovoltaic plate 01 is installed at the top of the cross beam 22 through bolts.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. A photovoltaic module installing support, its characterized in that: including a plurality of vertical settings in stand (1) on ground and arrange in braced frame (2) on a plurality of stand (1) tops in, photovoltaic board (01) are arranged in braced frame (2) roof, stand (1) with braced frame (2) are connected through slip subassembly (3), stand (1) with be provided with between braced frame (2) and prop up supporting beam (4), prop up supporting beam (4) one end with stand (1) lateral wall is connected, prop up supporting beam (4) the other end with braced frame (2) are connected, every stand (1) all include vertical connecting tube (11) that set up in ground and slide arrange connecting rod (12) inside connecting tube (11), connecting tube (11) with connecting rod (12) lateral wall is all followed stand (1) length direction has seted up a plurality of connecting holes (15), connect hole (15) department grafting cooperation has connecting pin (13).

2. The photovoltaic module mounting bracket of claim 1, wherein: guide grooves (121) are formed in the length direction of the side wall of the connecting rod (12), guide strips (111) are arranged on the inner side wall of the connecting cylinder (11), and the guide strips (111) are in sliding fit with the guide grooves (121).

3. The photovoltaic module mounting bracket of claim 1, wherein: the support frame (2) comprises an inclined beam (21) arranged at the top end of the upright post (1) and a cross beam (22) arranged at the top of the inclined beam (21), a T-shaped limit groove (213) is formed in the side wall of the end part of the inclined beam (21) along the length direction of the inclined beam (21), the sliding component (3) is partially arranged inside the limit groove (213) in a sliding mode, and the sliding component (3) is partially hinged to the end part of the adjacent connecting rod (12).

4. A photovoltaic module mounting bracket according to claim 3, wherein: the sliding assembly (3) comprises a sliding block (31) arranged in the limiting groove (213), a sliding strip (32) arranged on the side wall of the bottom of the sliding block (31), a sliding rod (33) arranged on the side wall of the bottom of the sliding block, a sliding plate (34) arranged on the periphery of the sliding rod (33) in a sliding mode, and a claw nut (35) connected to the periphery of the sliding rod (33) in a threaded mode, wherein the claw nut (35) is located on one side, far away from the inclined beam (21), of the sliding plate (34), and one end, close to the upright post (1), of the sliding strip (32) is hinged to the connecting rod (12).

5. The photovoltaic module mounting bracket of claim 4, wherein: the connecting tube is characterized in that a sliding sleeve (14) is sleeved on the outer side wall of the connecting tube (11), a sliding hole (16) is formed in the side wall of the sliding sleeve (14), a sliding pin (17) is inserted and matched at the sliding hole (16), one end of the supporting beam (4) is hinged to the outer side wall of the sliding sleeve (14), and the other end of the supporting beam (4) is hinged to the side wall of the oblique beam (21).

6. A photovoltaic module mounting bracket according to claim 3, wherein: a plurality of positioning grooves (211) are formed in the side wall of the top of the inclined beam (21) along the length direction of the cross beam (22), and the cross beam (22) is in plug-in fit with the positioning grooves (211).

7. The photovoltaic module mounting bracket of claim 6, wherein: each positioning groove (211) is provided with a fixing groove (212) on the side wall at the bottom, a fixing block (221) is arranged at the bottom of the cross beam (22), and the fixing blocks (221) are in plug-in fit with the fixing grooves (212).

8. The photovoltaic module mounting bracket of claim 7, wherein: and a chamfer is arranged at the bottom of the fixed block (221).