CN221487596U - Flexible photovoltaic bracket assembly fixing device - Google Patents

Abstract

The utility model provides a fixing device for a flexible photovoltaic bracket component, which comprises a pressing block main body, wherein the pressing block main body is a pressing block made of aluminum alloy, the inside of the pressing block main body is hollow, at least one mounting groove is formed in the left side and the right side of the pressing block main body, the mounting groove is clamped with a component frame, and the mounting groove is fixed with the component frame through a component mounting bolt; a pressing block anchor ear is arranged below the pressing block main body through two pressing block fixing bolts, a gap is arranged between the pressing block anchor ear and the bottom surface of the pressing block main body, and a inhaul cable is arranged between the pressing block anchor ear and the pressing block main body. According to the utility model, the photovoltaic module can be fixed on the flexible support inhaul cable by adopting the aluminum alloy pressing block and matching with the pressing block hoop and the bolt, so that the flexible photovoltaic support can span complex terrains or ponds. The installation of the component simultaneously realizes the connection of bolts and pressing blocks, ensures that the frame of the component is not torn or falls off under the action of wind load, and simultaneously can reduce hidden cracks caused by vibration of the component on a inhaul cable.

Description

Flexible photovoltaic bracket assembly fixing device

Technical Field

The utility model relates to the field of new photovoltaic energy, in particular to a fixing device for a flexible photovoltaic bracket assembly.

Background

Under the national double-carbon target, new energy power generation is a national key development project, and the vigorous development of photovoltaic is still a key direction in the next few years. With the increase of the photovoltaic loading capacity, basically building a photovoltaic power station in mountain areas, deserts and the like with good conditions, and the national management of farmland, forest lands and the like is more and more strict, most of the sites which can be used as the photovoltaic power station in the current stage are worse in condition, and the conventional fixed photovoltaic support can not meet the construction requirements of the mountain photovoltaic power station. In mountain projects, in order to adapt to complex terrains such as ravines, valleys and rivers, and in fishing light complementary projects, owners all require that the pile spacing of a photovoltaic bracket is as large as possible in order to reduce the influence of the photovoltaic on fishery cultivation. The flexible photovoltaic support can be well adapted to complex mountain areas and fish pond projects by the characteristics of large span and light structure, so that the development of the flexible photovoltaic support is a current key development direction and is a necessary trend of the photovoltaic industry.

Disclosure of utility model

The utility model provides a fixing device for a flexible photovoltaic bracket assembly, which aims at solving at least one technical problem.

The technical scheme of the utility model is as follows: the utility model provides a flexible photovoltaic support subassembly fixing device, includes the briquetting main part, its characterized in that, the briquetting main part is the briquetting of being made by aluminum alloy, the inside cavity of briquetting main part, just the left and right sides of briquetting main part is equipped with at least one mounting groove, mounting groove and subassembly frame joint, just the mounting groove is fixed with the subassembly frame through subassembly mounting bolt;

The briquetting staple bolt is installed through two briquetting fixing bolts to the below of briquetting main part, the briquetting staple bolt with be equipped with the clearance between the bottom surface of briquetting main part, the briquetting staple bolt with install the cable between the briquetting main part.

According to the utility model, the photovoltaic module can be fixed on the flexible support inhaul cable by adopting the aluminum alloy pressing block and matching with the pressing block hoop and the bolt, so that the flexible photovoltaic support can span complex terrains or ponds. The installation of the component simultaneously realizes the connection of bolts and pressing blocks, ensures that the frame of the component is not torn or falls off under the action of wind load, and simultaneously can reduce hidden cracks caused by vibration of the component on a inhaul cable.

Still preferably, the left and right sides of the briquetting main body are provided with a mounting groove, the left and right sides of the briquetting main body are respectively provided with an upper extension end and a lower extension end which are opposite, the upper extension end and the lower extension end form the mounting groove, the length of the lower extension end is greater than that of the upper extension end, and the assembly mounting bolt is fixed on the lower extension end.

The utility model can be applied to a fixing device located in the middle through two mounting grooves.

Still preferably, the left side of the briquetting main body is provided with a mounting groove, the left side of the briquetting main body is provided with an upper extension end and a lower extension end, the upper extension end and the lower extension end form the mounting groove, the length of the lower extension end is greater than that of the upper extension end, and the assembly mounting bolt is fixed on the lower extension end.

The utility model can be applied to a fixing device at the end by means of a mounting groove.

Further preferably, the contact surface between the upper extension end and the assembly frame and the contact surface between the lower extension end and the assembly frame are saw-tooth-shaped.

The hidden crack caused by the vibration of the component on the inhaul cable can be reduced.

Further preferably, the density of serrations at the lower extension is less than the density of serrations at the upper extension.

Different degrees of density can play different clamping effects.

Further preferably, the top of the upper extension end is higher than the top of the briquette main body, and the top of the upper extension end is inclined.

Thereby reducing wind resistance.

Further preferably, the edge of the lower extension is arcuate. The wind resistance can be reduced.

Drawings

FIG. 1 is a schematic view of the overall structure of the present utility model in an unused state;

FIG. 2 is a schematic plan view of a structure according to the present utility model when not in use;

FIG. 3 is a schematic view of the front mounting of the present utility model in use in one configuration;

FIG. 4 is a side-mounted schematic view of the present utility model in use in one configuration;

FIG. 5 is a schematic view of the overall structure of the present utility model in an alternative configuration when not in use;

FIG. 6 is a schematic plan view of another structure of the present utility model when not in use;

FIG. 7 is a schematic view of a front mounting of the present utility model in use in another configuration;

fig. 8 is a side-mounted schematic view of the present utility model in use in another configuration.

In the figure: 1. the device comprises a pressing block main body, 3, a component frame, 4, a mounting bolt, 5, a pressing block fixing bolt, 6, a pressing block hoop, 7 and a inhaul cable.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

The utility model provides a flexible photovoltaic support subassembly fixing device, includes briquetting main part 1, and the briquetting main part is the briquetting of being made by the aluminum alloy, and the inside cavity of briquetting main part, and the left and right sides of briquetting main part is equipped with at least one mounting groove, mounting groove and subassembly frame 3 joint, and the mounting groove is fixed with the subassembly frame through subassembly mounting bolt 4; a pressing block anchor ear 6 is arranged below the pressing block main body through two pressing block fixing bolts 5, a gap is arranged between the pressing block anchor ear and the bottom surface of the pressing block main body, and a guy rope 7 is arranged between the pressing block anchor ear and the pressing block main body.

According to the utility model, the photovoltaic module can be fixed on the flexible support inhaul cable by adopting the aluminum alloy pressing block and matching with the pressing block hoop and the bolt, so that the flexible photovoltaic support can span complex terrains or ponds. The installation of the component simultaneously realizes the connection of bolts and pressing blocks, ensures that the frame of the component is not torn or falls off under the action of wind load, and simultaneously can reduce hidden cracks caused by vibration of the component on a inhaul cable.

Referring to fig. 1-4, the left and right sides of the pressing block main body are respectively provided with a mounting groove, the left and right sides of the pressing block main body are respectively provided with an upper extending end and a lower extending end which are opposite to each other, the upper extending end and the lower extending end form the mounting groove, the length of the lower extending end is greater than that of the upper extending end, and the assembly mounting bolts are fixed on the lower extending end. The utility model can be applied to a fixing device located in the middle through two mounting grooves.

Referring to fig. 5 to 8, a mounting groove is formed in the left side of the pressing block main body, an upper extending end and a lower extending end are formed in the left side of the pressing block main body, the upper extending end and the lower extending end form the mounting groove, the length of the lower extending end is greater than that of the upper extending end, and the assembly mounting bolt is fixed to the lower extending end. The utility model can be applied to a fixing device at the end by means of a mounting groove.

Further preferably, the contact surface between the upper extension end and the assembly frame and the contact surface between the lower extension end and the assembly frame are saw-tooth-shaped. The hidden crack caused by the vibration of the component on the inhaul cable can be reduced.

Further preferably, the density of serrations at the lower extension is less than the density of serrations at the upper extension. Different degrees of density can play different clamping effects.

Further preferably, the top of the upper extension is higher than the top of the briquette main body, and the top of the upper extension is inclined. Thereby reducing wind resistance.

Further preferably, the edge of the lower extension is arcuate. The wind resistance can be reduced.

The foregoing is merely a preferred embodiment of the present utility model and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present utility model, which are intended to be comprehended within the scope of the present utility model.

Claims (6)

1. The utility model provides a flexible photovoltaic support subassembly fixing device, includes the briquetting main part, its characterized in that, the briquetting main part is the briquetting of being made by aluminum alloy, the inside cavity of briquetting main part, just the left and right sides of briquetting main part is equipped with at least one mounting groove, mounting groove and subassembly frame joint, just the mounting groove is fixed with the subassembly frame through subassembly mounting bolt;

The briquetting staple bolt is installed through two briquetting fixing bolts to the below of briquetting main part, the briquetting staple bolt with be equipped with the clearance between the bottom surface of briquetting main part, the briquetting staple bolt with install the cable between the briquetting main part.

2. The flexible photovoltaic bracket assembly fixture of claim 1, wherein: the briquetting is characterized in that the left side and the right side of the briquetting main body are respectively provided with a mounting groove, the left side and the right side of the briquetting main body are respectively provided with an upper extending end and a lower extending end which are opposite, the upper extending end and the lower extending end form the mounting grooves, the length of the lower extending end is greater than that of the upper extending end, and the assembly mounting bolts are fixed on the lower extending end.

3. The flexible photovoltaic bracket assembly fixture of claim 1, wherein: the left side of briquetting main part is equipped with the mounting groove, the left side of briquetting main part is equipped with extension end and lower extension end, go up extension end with lower extension end constitutes the mounting groove, the length of lower extension end is greater than go up extension end, just the subassembly mounting bolt is fixed on the lower extension end.

4. A flexible photovoltaic bracket assembly fixture according to claim 2 or 3, characterized in that: the contact surface between the upper extension end and the assembly frame and the contact surface between the lower extension end and the assembly frame are saw-tooth-shaped.

5. A flexible photovoltaic bracket assembly fixture according to claim 2 or 3, characterized in that: the top of the upper extending end is higher than the top of the pressing block main body, and the top of the upper extending end is inclined.

6. A flexible photovoltaic bracket assembly fixture according to claim 2 or 3, characterized in that: the edge of the lower extending end is arc-shaped.