CN215990630U - Briquetting for solar power station steel frame subassembly mounting structure - Google Patents

Abstract

The utility model discloses a pressing block for a solar power station steel frame component mounting structure, wherein the cross section of the pressing block is of a structure in a shape like a Chinese character 'ji' in which two pressing blocks are distributed up and down, and the pressing block is specifically composed of an upper pressing plate, a positioning plate, a connecting plate, a fixing plate, a lower pressing plate and a fixing nut; the upper compression plate, the positioning plate, the fixing plate, the lower compression plate and the fixing nut form clamping pieces, and the clamping pieces are symmetrically arranged on two sides of the connecting plate; the upper compression plate is perpendicular to the positioning plate, the positioning plate is perpendicular to the upper portion of the connecting plate, the fixing plate is perpendicular to the lower portion of the connecting plate, the lower compression plate is arranged at one end, away from the connecting plate, of the fixing plate, the fixing nut is arranged on the lower compression plate, and a through hole corresponding to the fixing nut is formed in the lower compression plate; the applicability and the stability of the steel frame component mounting structure are improved, and the service life of the steel frame component mounting structure is further prolonged.

Description

Briquetting for solar power station steel frame subassembly mounting structure

Technical Field

The utility model relates to a pressing block for a steel frame assembly, in particular to a pressing block for a solar power station steel frame assembly mounting structure.

Background

At present, a photovoltaic module is generally installed by adopting two modes of bolt back locking or aluminum pressing block fixing, along with the use of new materials, the replacement of an aluminum frame by a high-strength corrosion-resistant low-cost component steel frame is a great trend, and in reality, as shown in figure 1, potential difference corrosion is generated between different materials of the aluminum pressing block and the steel frame; meanwhile, the pressing area between the pressing block and the frame is small, and the problems of sliding, instable installation and the like are easy to occur; the aluminum pressing block has low strength and is easy to deform, and the phenomenon that the aluminum pressing block deforms to enable the assembly to fall off can be generated when the back wind exists, so that the use safety of the photovoltaic power station is influenced. The problem can be effectively solved by the novel pressing block.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems in the background art, the utility model aims to provide a pressing block for a solar power station steel frame component mounting structure, which solves the problems.

A pressing block for a solar power station steel frame assembly installation structure is characterized in that the cross section of the pressing block is of a structure in a shape like a Chinese character 'ji' with two distributed up and down, and the pressing block is specifically composed of an upper pressing plate, a positioning plate, a connecting plate, a fixing plate, a lower pressing plate and a fixing nut; the upper compression plate, the positioning plate, the fixing plate, the lower compression plate and the fixing nut form clamping pieces, and the clamping pieces are symmetrically arranged on two sides of the connecting plate; the upper compression plate is perpendicular to the positioning plate, the positioning plate is perpendicular to the upper portion of the connecting plate, the fixing plate is perpendicular to the lower portion of the connecting plate, the lower compression plate is arranged at one end, far away from the connecting plate, of the fixing plate, the fixing nut is arranged on the lower compression plate, and a through hole corresponding to the fixing nut is formed in the lower compression plate.

Furthermore, an included angle of 90-130 degrees is formed between the lower pressing plate and the fixing plate, and an included angle of 90-130 degrees is formed between the fixing plate and the connecting plate.

Furthermore, the positioning plate and the connecting plate are arranged in a staggered mode.

Furthermore, the locating plate in the briquetting is equipped with 4, and the fixed plate is equipped with 2, 4 the two bisymmetry settings of locating plate in connecting plate both sides, 2 the fixed plate sets up respectively between 2 locating plates of homonymy.

Furthermore, the connecting plate is provided with a bolt mounting hole.

Furthermore, the pressing block is of an integrated structure.

Furthermore, the material of briquetting and the frame material of steel frame subassembly are the same.

Compared with the prior art, the utility model discloses a solar power station steel frame assembly mounting structure, which has the following specific beneficial effects:

(1) the pressing block and the steel frame component frame are made of the same material, so that potential difference corrosion is avoided, the corrosion resistance is further improved, and the pressing block and the supporting block are formed by stamping steel plates, so that the mechanical property is excellent, and the environment-friendly effect is realized;

(2) the mounting form that can make steel frame subassembly mounting structure be the lock of pushing down, promptly: pressing: through the last pressure strip setting in the briquetting on the subassembly mounting groove, lock down: by means of the structure, the supporting strength of the supporting block to the steel frame assembly can be improved, the stability of the steel frame assembly is guaranteed, and the hidden danger that the assembly falls off and flies due to the sliding or frame tearing problems caused by small pressing area can be effectively eliminated;

(3) the lower pressing plate in the pressing block is provided with the fixing nut, and when the lower pressing plate is installed, the bolt only needs to sequentially penetrate through the purline, the placing groove and the lower pressing plate and enable the end part of the lower pressing plate to be screwed into the fixing nut, so that the lower pressing plate is more convenient to install;

(4) the utility model discloses a support, including the support, the support is fixed on the support, through the briquetting behind the bolt locking, make steel frame subassembly mounting structure become a whole, guarantee to track holistic security, reliability of support, simultaneously, can make two wings of nearly style of calligraphy purlin even as an organic whole through this structure, can prevent that purlin upper portion opening side direction both sides from expanding and warping when the atress, improve its life, guarantee the stability of steel frame subassembly installation.

Drawings

FIG. 1 is a schematic diagram of a prior art structure;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a force analysis diagram of FIG. 2;

FIG. 4 is a schematic view of a cubic structure of a pressing block;

FIG. 5 is a schematic diagram of a side view of a pressing block

FIG. 6 is a schematic view of a support block configuration;

FIG. 7 is a schematic view of the parallel installation of the steel frame assembly mounting structure of a n-shaped purline;

FIG. 8 is a schematic view of a parallel mounting arrangement for a steel frame assembly of a C-shaped purlin;

FIG. 9 is a schematic view of the vertical mounting of the steel frame assembly mounting structure of a n-shaped \ C-shaped purline;

in the figure: 1. a purlin; 2. a support block; 21. an assembly mounting groove; 211. a protrusion; 22. a support plate; 221. a reinforcing groove; 23. a placement groove; 3. briquetting; 31. an upper compression plate; 32. positioning a plate; 33. a connecting plate; 331. a bolt mounting hole; 34. a fixing plate; 35. a lower compression plate; 36. fixing a nut; 4. a steel frame component; 5. a bolt; 6. and (4) pressing the aluminum into blocks.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 4-5, the present invention provides a technical solution: a pressing block 3 for a mounting structure of a steel frame component 4 of a solar power station is characterized in that the cross section of the pressing block 3 is of a structure with two vertically distributed inverted V-shaped structures, and specifically comprises an upper pressing plate 31, a positioning plate 32, a connecting plate 33, a fixing plate 34, a lower pressing plate 35 and a fixing nut 36; the clamping pieces are composed of the upper pressing plate 31, the positioning plate 32, the fixing plate 34, the lower pressing plate 35 and the fixing nut 36, and are symmetrically arranged at two sides of the connecting plate 33; go up pressure strip 31 and the perpendicular setting of locating plate 32, locating plate 32 sets up in the connecting plate 33 top perpendicularly, fixed plate 34 sets up the connecting plate 33 below perpendicularly, pressure strip 35 sets up the one end of keeping away from connecting plate 33 at fixed plate 34 down, fixation nut 36 sets up under on pressure strip 35, be equipped with the through-hole that corresponds with fixation nut 36 down on the pressure strip 35.

In this embodiment, the lower pressing plate 35 is at an angle of 90-130 ° with the fixing plate 34, and the fixing plate 34 is at an angle of 90-130 ° with the connecting plate 33.

Further in this example, the positioning plate 32 is disposed offset from the connecting plate 33.

Further in this example, there are 4 positioning plates 32 in the pressing block 3, there are 2 fixing plates 34, two pairs of the 4 positioning plates 32 are symmetrically disposed on two sides of the connecting plate 33, and the 2 fixing plates 34 are respectively disposed between the 2 positioning plates 32 on the same side.

Further, in this embodiment, the connecting plate 33 is provided with a bolt 5 mounting hole 331.

Further in this example, the press block 3 is of a one-piece construction.

Further in this example, the material of the pressing block 3 is the same as the material of the frame of the steel frame assembly 4.

As shown in fig. 1 to 7, the press block 3 is used in a steel frame member 4 installation structure including: the purline assembly comprises a purline 1, a supporting block 2, a pressing block 3 and a steel frame assembly 4; the number of the supporting blocks 2 is two, the two supporting blocks 2 are symmetrically arranged on the purline 1, and the pressing block 3 is arranged between the two supporting blocks 2 symmetrically arranged on the purline 1; the steel frame assembly 4 is arranged on the supporting block 2; the supporting block 2 is in a shape of Chinese character 'ji'.

Further in this example, the support block 2 comprises: a component mounting groove 21, a support plate 22, a placement groove 23; the component mounting groove 21 and the placement groove 23 are connected by the placement groove 23, the component mounting groove 21 is located above the placement groove 23, the component mounting groove 21 is horizontally disposed with an opening facing the direction of the support plate 22, the placement groove 23 is open facing the component mounting groove 21, the steel frame component 4 is mounted in the component mounting groove 21, and the press block 3 is placed in the placement groove 23.

Further in this example, the opening of the component mounting groove 21 away from the supporting plate 22 is provided with a protrusion 211.

In this embodiment, the supporting plate 22 is further provided with a horizontal reinforcing groove 221, and the reinforcing groove 221 and the supporting plate 22 are of an integral structure.

Further in this example, the bottom of the placing groove 23 in the supporting block 2 is provided with a through hole corresponding to the fixing nut 36.

Further in this example, the support block 2 and the pressure block 3 are of a one-piece construction.

Further in this example, the pressing block 3 and the supporting block 2 are mounted on the purlin 1 through the bolt 5, wherein the upper pressing plate 31 is press-mounted on the assembly mounting groove 21 of the supporting block 2, the placing groove 23 of the supporting block 2 is arranged on the purlin 1, the lower pressing plate 35 is mounted in the placing groove 23, and the fixing plate 34 is attached to the wall of the placing groove 23.

In this embodiment, the material of the pressing block 3 and the supporting block 2 is the same as that of the steel frame assembly 4, so that potential difference corrosion is avoided, the corrosion resistance is further improved, and the pressing block 3 and the supporting block 2 are formed by stamping steel plates, so that the mechanical property is excellent, and the environment is protected without pollution.

The material of the pressing block 3 is the same as that of the frame of the steel frame component 4, so that potential difference corrosion is avoided, the corrosion resistance is further improved, and the pressing block 3 and the supporting block 2 are formed by stamping steel plates, so that the mechanical property is excellent, the environment is protected, and no pollution is caused;

through will can make steel frame subassembly 4 mounting structure be the mounting form of push-down lock, namely: pressing: set up on subassembly mounting groove 21 through last pressure strip 31 in briquetting 3, lock down: by placing the upper pressing plate 31 in the pressing block 3 in the placing groove 23 and fixing the pressing block 3 and the supporting block 2 on the purline 1 through the bolt 5, the structure can improve the supporting strength of the supporting block 2 on the steel frame component 4, ensure the stability of the steel frame component, and effectively eliminate the hidden trouble that the component falls off and flies away due to the problems of sliding or frame tearing and the like caused by small pressing area;

the fixing nuts 36 are arranged on the lower pressing plate 35 in the pressing block 3, and the bolts 5 only need to sequentially penetrate through the purlines 1, the placing grooves 23 and the lower pressing plate 35 and enable the end parts of the bolts to be screwed into the fixing nuts 36 during installation, so that the installation is more convenient, meanwhile, the bolt 5 installation holes 331 are additionally formed in the connecting plate 33, a new installation mode is added, the installation of the steel frame assembly 4 installation structure on different purlines 1 is realized, and the adaptability of the steel frame assembly is improved;

after 5 locks at the bolt through briquetting 3, make 4 mounting structure of steel frame subassembly become a whole, guarantee to track holistic security of support, reliability, simultaneously, can make several style of calligraphy purlins 1's both wings even as an organic whole through this structure, can prevent 1 upper portion opening side direction both sides of purlin to expand when the atress and warp, improve its life, guarantee the stability of 4 installations of steel frame subassembly.

In the example, the purline 1 is one of a n-shaped purline 1 and a C-shaped purline 1; each purline 1 enables the steel frame assembly 4 to be mounted in two mounting modes, namely vertical mounting and horizontal mounting.

When 4 mounting structure of steel frame subassembly are horizontal installation:

as shown in fig. 7, the purline 1 is a n-shaped purline 1, and two bolts 5 are used for installation, namely the bolts 5 penetrate through the purline 1 and the supporting block 2 and are installed on a fixing nut 36 in the pressing block 3;

as shown in fig. 8, the purline 1 is a C-shaped purline 1, and is mounted by using a bolt 5, that is, the bolt 5 mounting hole 331 on the bolt 5 connecting plate 33 and the purline 1 are fixedly mounted.

As shown in fig. 9, when the installation structure of the steel frame assembly 4 is vertically installed:

the purline 1 is a n-shaped purline 1 or a C-shaped purline 1, and is mounted by using two or one bolt 5, as shown in a in fig. 9, when two bolts 5 are used, namely the bolts 5 penetrate through the purline 1 and the supporting block 2 and are mounted on the fixing nuts 36 in the pressing block 3; as shown in b of fig. 9, when one bolt 5 is used, namely the bolt 5 is connected with the bolt 5 mounting hole 331 on the plate 33 and the purlin 1, the mounting and the fixing are realized.

Claims (7)

1. A pressing block for a solar power station steel frame component mounting structure is characterized in that the cross section of the pressing block is of a structure with two vertically distributed inverted V-shaped structures, and specifically comprises an upper pressing plate, a positioning plate, a connecting plate, a fixing plate, a lower pressing plate and a fixing nut; the upper compression plate, the positioning plate, the fixing plate, the lower compression plate and the fixing nut form clamping pieces, and the clamping pieces are symmetrically arranged on two sides of the connecting plate; the upper compression plate is perpendicular to the positioning plate, the positioning plate is perpendicular to the upper portion of the connecting plate, the fixing plate is perpendicular to the lower portion of the connecting plate, the lower compression plate is arranged at one end, far away from the connecting plate, of the fixing plate, the fixing nut is arranged on the lower compression plate, and a through hole corresponding to the fixing nut is formed in the lower compression plate.

2. The pressing block for the solar power station steel frame component installation structure according to claim 1, characterized in that: the lower pressing plate and the fixing plate form an included angle of 90-130 degrees, and the fixing plate and the connecting plate form an included angle of 90-130 degrees.

3. The pressing block for the solar power station steel frame component installation structure according to claim 2, wherein: the positioning plate and the connecting plate are arranged in a staggered mode.

4. The pressing block for the solar power station steel frame component installation structure according to claim 3, wherein: the locating plate in the briquetting is equipped with 4, and the fixed plate is equipped with 2, 4 the two bisymmetry settings of locating plate are in the connecting plate both sides, 2 the fixed plate sets up respectively between 2 locating plates of homonymy.

5. The briquetting for a solar power station steel frame assembly mounting structure of any one of claims 1 to 4, wherein: and the connecting plate is provided with a bolt mounting hole.

6. The briquetting for a solar power station steel frame assembly mounting structure of any one of claims 1 to 4, wherein: the pressing block is of an integrated structure.

7. The briquetting for a solar power station steel frame assembly mounting structure of any one of claims 1 to 4, wherein: the material of briquetting and the frame material of steel frame subassembly are the same.

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