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CN-224233600-U - Photovoltaic support assembly and photovoltaic system

CN224233600UCN 224233600 UCN224233600 UCN 224233600UCN-224233600-U

Abstract

The utility model provides a photovoltaic support assembly and photovoltaic system relates to the installation technical field of photovoltaic support, and this photovoltaic support assembly includes crossbeam and first basin structure, first basin structure includes first basin body and first connecting piece, the crossbeam is placed in the slope, first basin body with the crossbeam is kept away from one side fixed connection on slope, two sections first basin body is located two adjacent slopes respectively, two sections first basin body passes through first connecting piece connects, and photovoltaic module is fixed in one side that the slope was kept away from to first basin body. The photovoltaic module is stably installed on the slope through the photovoltaic bracket assembly on the premise of not damaging the roof, and the photovoltaic module has the guiding effect on rainwater, so that the rainwater is prevented from accumulating between the photovoltaic module and the slope, and the normal operation of the photovoltaic module is correspondingly ensured.

Inventors

  • Qi Fushuai
  • ZHANG HEZHI
  • WU MENG
  • ZHANG ZHE
  • ZHANG SONGWEI
  • LIU YUANYUAN
  • ZHANG YANHU

Assignees

  • 阳光新能源开发股份有限公司

Dates

Publication Date
20260512
Application Date
20250429

Claims (17)

  1. 1. The utility model provides a photovoltaic support assembly, its characterized in that, includes crossbeam (200) and first basin structure (300), first basin structure (300) include first basin body (310) and first connecting piece (320), crossbeam (200) are placed in slope (810), first basin body (310) with crossbeam (200) are kept away from one side fixed connection of slope (810), two sections first basin body (310) are located two adjacent slopes (810) respectively, two sections first basin body (310) are passed through first connecting piece (320) are connected, photovoltaic module (900) are fixed in first basin body (310) are kept away from one side of slope (810).
  2. 2. The photovoltaic bracket assembly according to claim 1, wherein the first connecting piece (320) comprises a first connecting plate (321) and a first connecting rod (322), the first connecting rod (322) is arranged at the end of the first connecting plate (321) and the end of the first water tank body (310) in a penetrating manner, and the first connecting plate (321) is movably connected with the corresponding first water tank body (310) through the first connecting rod (322).
  3. 3. The photovoltaic bracket assembly of claim 2, wherein the first connection plate (321) communicates with the first sink body (310).
  4. 4. The photovoltaic bracket assembly of claim 2, further comprising a second connector (510), wherein the first sink body (310) is fixedly connected to the cross beam (200) via the second connector (510).
  5. 5. The photovoltaic bracket assembly according to claim 1, further comprising a second water trough (400), the second water trough (400) being fixed at the junction of two adjacent ramps (810), the second water trough (400) being located between two adjacent first water trough structures (300), an end of the second water trough (400) being in communication with the first connection (320) of the first water trough structures (300).
  6. 6. The photovoltaic bracket assembly of claim 5, wherein the second sink (400) has two grooves, two of the grooves communicating with two segments of the first sink body (310) of the first sink structure (300).
  7. 7. The photovoltaic bracket assembly according to claim 1, further comprising a third water trough (500), wherein the third water trough (500) is in communication with the first water trough body (310), wherein the photovoltaic module (900) comprises a plurality of photovoltaic panels, wherein at least a portion of the photovoltaic panels are disposed at intervals along the slope of the slope (810), and wherein the third water trough (500) is disposed at a junction between two adjacent photovoltaic panels disposed at intervals along the slope of the slope (810) toward one side of the slope (810).
  8. 8. The photovoltaic bracket assembly of claim 7, wherein an end of the third sink (500) is fixedly connected to a side wall of the first sink body (310) by a bolt fastener.
  9. 9. The photovoltaic bracket assembly of claim 1, further comprising a support base (600), the support base (600) being fixed to a side of the beam (200) facing the ramp (810).
  10. 10. The photovoltaic bracket assembly of claim 1, further comprising a securing structure (700), the securing structure (700) being secured to a wall (830), the cross-member (200) at the lowermost end of each ramp (810) being connected to the securing structure (700).
  11. 11. The photovoltaic bracket assembly according to claim 1, further comprising a tooling assembly (100), wherein the tooling assembly (100) comprises a connecting shaft (110) and a second connecting rod (120), the second connecting rod (120) is fixedly connected with the cross beam (200), two sections of the second connecting rod (120) are respectively placed on two adjacent slopes (810), and two sections of the second connecting rod (120) are connected through the connecting shaft (110).
  12. 12. The photovoltaic bracket assembly of claim 11, further comprising a plurality of said tooling assemblies (100), wherein two adjacent second connecting rods (120) on the same ramp (810) are fixedly connected to the cross beam (200).
  13. 13. The photovoltaic bracket assembly according to claim 11, wherein the second connecting rod (120) is provided with a plurality of mounting holes (121), the plurality of mounting holes (121) are arranged at intervals along the extending direction of the second connecting rod (120), the photovoltaic bracket assembly further comprises a connecting bolt (520), and the connecting bolt (520) penetrates through the mounting holes (121) of the second connecting rod (120) and is connected with the cross beam (200).
  14. 14. The photovoltaic bracket assembly according to claim 13, characterized in that the mounting hole (121) is a bar-shaped hole, the mounting hole (121) extending in the length direction of the second connecting rod (120).
  15. 15. The photovoltaic bracket assembly according to claim 11, characterized in that two sections of the second connecting rod (120) are rotatably connected by the connecting shaft (110).
  16. 16. A photovoltaic system comprising a photovoltaic module (900) and a photovoltaic bracket assembly according to any of claims 1 to 15, the photovoltaic module (900) being fixed to a side of the first water trough body (310) of the photovoltaic bracket assembly remote from the ramp (810).
  17. 17. The photovoltaic system of claim 16, wherein the photovoltaic bracket assembly further comprises a briquetting structure (910), the photovoltaic module comprises a photovoltaic panel, and the photovoltaic panel is fixedly connected with the first sink body (310) through the briquetting structure (910).

Description

Photovoltaic support assembly and photovoltaic system Technical Field The disclosure relates to the technical field of installation of photovoltaic brackets, in particular to a photovoltaic bracket assembly and a photovoltaic system. Background The photovoltaic system can be installed on various scenes such as sea surfaces, hillsides, roofs and the like, and mainly comprises a photovoltaic bracket and a photovoltaic module, wherein the photovoltaic module is installed on the roofs through the photovoltaic bracket for the photovoltaic system installed on the roofs. In the related art, the photovoltaic support mainly comprises a plurality of cross beams and a plurality of briquetting structures, the cross beams are arranged at intervals along the slope surface of the pitched roof, the photovoltaic module comprises a plurality of photovoltaic plates, and the photovoltaic plates can be directly installed on the cross beams through the briquetting structures or indirectly installed on the cross beams through other parts so as to play a supporting role on the photovoltaic module through the cross beams. However, due to the fact that an installation gap exists between two adjacent photovoltaic plates in the photovoltaic assembly, rainwater easily flows into the space between the slope and the photovoltaic plates from the installation gap between the adjacent photovoltaic plates, when the quantity of the rainwater is large, the rainwater which is located between the photovoltaic plates and the slope and cannot be discharged in time can possibly enter the inside of the photovoltaic plates, and therefore safe operation of the photovoltaic plates is affected. Disclosure of utility model The problem that this disclosure solved is how effectively to discharge the rainwater between photovoltaic module and the roof, ensures the normal operating of photovoltaic board. In order to solve the problems, the disclosure provides a photovoltaic bracket assembly and a photovoltaic system. In a first aspect, the present disclosure provides a photovoltaic support assembly, including crossbeam and first basin structure, first basin structure includes first basin body and first connecting piece, and the crossbeam is placed in the slope, and one side fixed connection on slope is kept away from to first basin body and crossbeam, and two sections first basin bodies are located two adjacent slopes respectively, and two sections first basin bodies are connected through first connecting piece, and photovoltaic module is fixed in one side that the slope was kept away from to first basin body. Optionally, the first connecting piece includes first connecting plate and head rod, and the head rod wears to locate the tip of head plate and the tip of first basin body, and head plate passes through head rod and corresponding first basin body swing joint. Optionally, the first connection plate is in communication with the first sink body. Optionally, the photovoltaic bracket assembly further comprises a second connecting piece, and the first water tank body is fixedly connected with the cross beam through the second connecting piece. Optionally, the photovoltaic bracket assembly further comprises a second water tank, the second water tank is fixed at the junction of two adjacent slopes, the second water tank is located between two adjacent first water tank structures, and the end part of the second water tank is communicated with the first connecting piece of the first water tank structures. Optionally, the second water tank has two grooves, and the two grooves are communicated with the two sections of the first water tank body of the first water tank structure. Optionally, the photovoltaic bracket assembly further comprises a third water tank, the third water tank is communicated with the first water tank body, the photovoltaic assembly comprises a plurality of photovoltaic plates, at least part of the photovoltaic plates are arranged at intervals along the slope direction of the slope, and the third water tank is positioned at the joint of two adjacent photovoltaic plates which are arranged at intervals along the slope direction of the slope and faces one side of the slope. Optionally, the end of the third water tank is fixedly connected with the side wall of the first water tank body through a bolt fastener. Optionally, the photovoltaic bracket assembly further comprises a supporting seat, and the supporting seat is fixed on one side of the cross beam, which faces the slope. Optionally, the photovoltaic bracket assembly further comprises a fixing structure, the fixing structure is fixed on the wall, and the cross beam at the lowest end of each slope is connected with the fixing structure. Optionally, the photovoltaic support assembly further comprises a tool assembly, the tool assembly comprises a connecting shaft and a second connecting rod, the second connecting rod is fixedly connected with the cross beam, the two sections of second connecting