CN220435191U - Assembling structure of aluminum alloy pressing block - Google Patents

Abstract

The utility model relates to an assembly structure of an aluminum alloy pressing block, which is characterized in that: the device comprises a bridge, wherein longitudinal connecting plates are vertically arranged on the lower surfaces of two sides of the bridge, first through holes for locking first bolts are formed in the longitudinal connecting plates, second through holes for penetrating second bolts are formed in two sides of the bridge, a partition plate strip is arranged on the upper surface of the bridge, two sides of the bridge are connected with a transverse pressing block or a vertical pressing block, third through holes for penetrating the second bolts are formed in the transverse pressing block and the vertical pressing block, and the transverse pressing block or the vertical pressing block is detachably connected with the bridge through the second bolts; the assembly structure of the pressing block is reasonable in design, simple in structure and low in manufacturing cost, and is beneficial to improving the installation efficiency.

Description

Assembling structure of aluminum alloy pressing block

Technical field:

the utility model relates to an assembly structure of an aluminum alloy pressing block.

The background technology is as follows:

the photovoltaic power generation refers to a power generation mode of directly converting solar radiation energy into electric energy by utilizing a solar photovoltaic panel assembly; when in use, the solar photovoltaic panel assembly needs to be fixed on the mounting bracket, however, the current mounting structure is complex and the mounting efficiency is low.

Searching for a 'photovoltaic module mounting structure' of China patent, wherein publication No. CN114928310A, a fixed box, a first mounting groove is formed in the upper end of the fixed box, and a first limit groove and a first limit protrusion are formed in the inner side wall of the first mounting groove at intervals up and down; the fixing base is detachably arranged in the first mounting groove, a second limiting protrusion and a second limiting groove are arranged on the outer side of the fixing base, the first limiting protrusion is used for being connected with the second limiting groove, and the second limiting protrusion is used for being connected with the first limiting groove; the first vertical bracket is fixedly connected to the upper end of the fixed base; the first installation seats are connected to the first vertical support at intervals up and down; the photovoltaic module mounting structure solves the problems that the existing photovoltaic module mounting structure is usually directly and fixedly connected with a substrate, cannot be disassembled and is inconvenient to replace; but the structure is complex and the manufacturing cost is high.

The utility model comprises the following steps:

the utility model aims to provide an assembly structure of an aluminum alloy pressing block, which has reasonable design, simple structure and low manufacturing cost and is beneficial to improving the installation efficiency.

The utility model relates to an assembling structure of an aluminum alloy pressing block, which is characterized in that: the novel bridge comprises a bridge body, longitudinal connecting plates are vertically arranged on the lower surfaces of two sides of the bridge body, first through holes for locking first bolts are formed in the longitudinal connecting plates, second through holes for penetrating second bolts are formed in two sides of the bridge body, a partition plate strip is arranged on the upper surface of the bridge body, transverse pressing blocks or vertical pressing blocks are connected with two sides of the bridge body, third through holes for penetrating the second bolts are formed in the transverse pressing blocks and the vertical pressing blocks, and the transverse pressing blocks or the vertical pressing blocks are detachably connected with the bridge body through the second bolts.

Preferably, the bridge comprises a strip-shaped plate with an inverted trapezoid channel in the middle and a trapezoid bending plate fixed in the inverted trapezoid channel, two first supporting plates are arranged between the inverted trapezoid channel and the trapezoid bending plate, the upper surfaces of the trapezoid bending plate are flush with the upper surfaces of two side parts of the bridge, and the partition board strips are arranged on the upper surfaces of the trapezoid bending plates.

Preferably, the transverse pressing block is in a bending shape and comprises a first bending part and a second bending part, wherein a C-shaped groove is formed at the first end of the first bending part, cylindrical convex parts are formed at two end parts of the bridge, and the cylindrical convex parts and the C-shaped groove can be in sliding insertion fit; the second bending part is provided with an upper arc-shaped plate and a lower bending plate, a cavity is formed between the upper arc-shaped plate and the lower bending plate, a second supporting sheet which is supported between the upper arc-shaped plate and the lower bending plate is arranged in the cavity, and the third through hole is arranged on the plate body between the first bending part and the second bending part; a pressing space for pressing the solar photovoltaic panel assembly is formed between the lower surface of the first bending part and the upper surface of the middle part of the bridge frame.

Preferably, the vertical pressing block is provided with a transverse slideway which can be connected with the two side parts of the bridge in a sliding way in the length direction, and the side parts of the vertical pressing block are provided with pressing parts for pressing the solar photovoltaic panel assemblies; the pressing part and the transverse slideway are respectively arranged on two side parts of the vertical pressing block.

Preferably, the vertical pressing block comprises an upper panel, a middle partition, a side panel, a limit bar, a connecting bar and a pressing part, wherein the upper panel and the middle partition are arranged in parallel, the side panel is vertically arranged on the first side part of the upper panel and the first side part of the middle partition, the connecting bar is arranged between the upper panel and the middle partition, the limit bar is arranged on the side panel, the limit bar and the middle partition form a transverse slideway, the third through hole is penetrated on the upper panel and the middle partition, the pressing part is connected on the second side part of the upper panel and the second side part of the middle partition, the pressing part comprises two vertical connecting plates and an arc plate arranged on the free ends of the two vertical connecting plates, the first connecting plate of the two vertical connecting plates is vertically connected with the second side part of the upper panel and the middle partition, and the lower surface of the second connecting plate of the two vertical connecting plates is used as a pressing surface for pressing the solar photovoltaic panel assembly.

Preferably, a clamping block is arranged below the vertical pressing block, the clamping block is a rectangular plate, a through hole for penetrating the second bolt is formed in the clamping block, the first side part of the clamping block abuts against the lower part of the side panel, and the second side part of the clamping block is opposite to the pressing surface of the vertical pressing block.

Preferably, the bridge frame, the transverse pressing block and the vertical pressing block are profiles made of aluminum alloy materials.

According to the mounting method of the assembly structure of the aluminum alloy pressing block, the longitudinal connecting plates are close to two side plates of purlines on the mounting support, after the first through holes on the longitudinal connecting plates are opposite to the oval through holes on the side plates, the first through holes and the oval through holes are penetrated with first bolts for locking and fixing, then the transverse pressing block or the vertical pressing block is mounted on two side parts of the bridge, the second bolts penetrate through the second through holes and the third through holes, locking and fixing of the transverse pressing block or the vertical pressing block and the bridge are achieved, and then the solar photovoltaic plate assembly is pressed and fixed.

The assembly structure of the aluminum alloy pressing block is reasonable in design, simple in structure, and beneficial to conveniently and rapidly realizing locking and fixing of the transverse pressing block or the vertical pressing block and the bridge, so that the solar photovoltaic panel assembly is pressed and fixed on the mounting bracket.

The present utility model will be described in detail with reference to the accompanying drawings.

Description of the drawings:

FIG. 1 is a schematic perspective view of a first embodiment of a bridge of the present utility model;

FIG. 2 is a schematic view of a partial explosion configuration of a first embodiment of the present utility model;

FIG. 3 is a partial view of FIG. 2;

FIG. 4 is a schematic perspective view of a second embodiment of the bridge of the present utility model;

FIG. 5 is a schematic view of a partial explosion configuration of a second embodiment of the present utility model;

FIG. 6 is a partial view of FIG. 5;

FIG. 7 is a partial perspective view of a purlin;

FIG. 8 is a perspective view of a solar photovoltaic panel assembly;

FIG. 9 is a section M-M of FIG. 8;

FIG. 10 is a schematic cross-sectional view of a first embodiment of the present utility model installed with purlins and solar photovoltaic panel assemblies;

FIG. 11 is a schematic cross-sectional view of a second embodiment of the present utility model installed with purlins and solar photovoltaic panel assemblies;

fig. 12 is an N-N cross-sectional view of fig. 11.

The specific embodiment is as follows:

the utility model discloses an aluminum alloy briquetting assembly structure, which comprises a bridge frame 1, wherein longitudinal connecting plates 2 are vertically arranged on the lower surfaces of two side parts of the bridge frame, first through holes 3 for locking first bolts are arranged on the longitudinal connecting plates, second through holes 4 for penetrating second bolts are arranged on two side parts of the bridge frame 1, a baffle strip 5 is arranged on the upper surface of the bridge frame 1, the baffle strip 5 is used for limiting the position of a solar photovoltaic panel assembly K, the baffle strip 5 is positioned at the middle or near the middle position of the upper surface of the bridge frame 1, two side parts of the bridge frame are connected with a transverse briquetting 6 or a vertical briquetting 7, the transverse briquetting 6 and the vertical briquetting 7 are respectively provided with a third through hole 8 for penetrating second bolts, the transverse briquetting or the vertical briquetting is detachably connected with the bridge frame through the second bolts, and after the transverse briquetting 6 or the vertical briquetting 7 is installed with the bridge frame 1, the second through holes 4 and the third through holes 8 are penetrated and fixed through the second bolts.

Specifically, the bridge 1 includes a strip-shaped plate 102 with an inverted trapezoid channel 101 in the middle and a trapezoid bending plate 103 fixed in the inverted trapezoid channel 101, two first supporting plates 104 are arranged between the inverted trapezoid channel 101 and the trapezoid bending plate 103, the upper surfaces of the trapezoid bending plate and the upper surfaces of two sides of the bridge are flush, and the partition board strips 5 are arranged on the upper surfaces of the trapezoid bending plate 103.

The transverse pressing block 6 is in a bent shape, the transverse pressing block 6 comprises a first bending part and a second bending part, a C-shaped groove 601 is formed at the first end of the first bending part, cylindrical convex parts 602 are formed at two end parts of the bridge, and the cylindrical convex parts 602 and the C-shaped groove 601 can be in sliding insertion fit along the axial direction; the second bending part is provided with an upper arc-shaped plate 603 and a lower bending plate 604, a cavity is formed between the upper arc-shaped plate and the lower bending plate, a second supporting sheet 605 which is supported between the upper arc-shaped plate and the lower bending plate is arranged in the cavity, and a third through hole 8 is formed in the plate body between the first bending part and the second bending part; a pressing space 606 for pressing the solar photovoltaic panel assembly is formed between the lower surface of the first bending part and the upper surface of the middle part of the bridge frame.

The vertical pressing block 7 is provided with a transverse slideway 701 which can be connected with the two sides of the bridge in a sliding way in the length direction, and the sides of the vertical pressing block are provided with a pressing part 702 for pressing the solar photovoltaic panel assembly; the pressing part and the transverse slideway are respectively arranged on two side parts of the vertical pressing block.

Specifically, the vertical pressing block 7 includes an upper panel 703, a middle partition 704, a side panel 705, a limit bar 706, a linking bar 707 and a pressing portion 702, where the upper panel 703 and the middle partition 704 are arranged in parallel, the side panel 705 is vertically arranged on a first side portion of the upper panel 703 and the middle partition 704, the linking bar 707 is arranged between the upper panel 703 and the middle partition 704, the limit bar 706 is arranged on the side panel 705, the lateral slideway 701 is formed between the limit bar 706 and the middle partition 704, the third through hole 8 is arranged on the upper panel 703 and the middle partition 704 in a penetrating manner, the pressing portion 702 is connected on a second side portion of the upper panel and the middle partition, the pressing portion includes two vertical connection plates and an arc plate 709 arranged on free ends of the two vertical connection plates, a first connection plate 708 of the two vertical connection plates is vertically connected with the second side portion of the upper panel and the middle partition, and the lower surface of the second connection plate 710 of the two vertical connection plates serves as a pressing surface for pressing the solar photovoltaic panel assembly K.

For pressing stably and reliably, the clamping block 9 is arranged below the vertical pressing block, the clamping block is a rectangular plate, a through hole 901 for penetrating the second bolt is formed in the clamping block, the first side portion 902 of the clamping block abuts against the lower portion of the side panel, the second side portion 903 of the clamping block faces against the pressing surface of the vertical pressing block, and the installation and fixation of the solar photovoltaic panel assembly K are realized through clamping of the second side portion 903 of the clamping block and the pressing surface of the vertical pressing block.

The bridge frame, the transverse pressing blocks and the vertical pressing blocks can be section bars made of aluminum alloy materials.

In addition, as shown in fig. 8 and 9, the solar photovoltaic panel assembly K is a conventional commercial product, and includes a rectangular frame K1 surrounded by four frame strips K6 and a solar photovoltaic panel K2 fastened in the rectangular frame, where the frame strips are shaped, and the section of the frame strips includes a rectangular housing K3 and an extension strip K4 provided on a short side extension portion of the lower portion of the rectangular housing, and a hook K5 provided on a long side extension portion of the rectangular housing K3 for fastening the solar photovoltaic panel, and the pressing space 606 and the pressing portion 702 are used for pressing the extension strip K4.

As shown in fig. 7, the purline A1 includes two side plates A2 and a V-shaped channel arranged between the two side plates, an oval through hole A3 is arranged on the side plates, the oval through hole A3 is used for being locked with a first bolt, when the purline is installed, two longitudinal connecting plates 2 are respectively attached to the two side plates, after the first through hole 3 on the longitudinal connecting plates is opposite to the oval through hole A3 on the side plates, the first bolt is penetrated into the first through hole 3 and the oval through hole A3 for locking and fixing, and the purline B can be made of plastics or made of stainless steel plates through mould pressing or rolling.

According to the mounting method of the assembly structure of the aluminum alloy pressing block, the longitudinal connecting plate is close to two side plates A2 of the purline A1 on the mounting support, after the first through holes 3 on the longitudinal connecting plate are opposite to the oval through holes A3 on the side plates, first bolts penetrate into the first through holes 3 and the oval through holes A3 to be locked and fixed, then the transverse pressing block or the vertical pressing block is mounted on two side parts of the bridge, the second bolts penetrate through the second through holes and the third through holes, so that the locking and the fixing of the transverse pressing block or the vertical pressing block and the bridge are realized, and then the solar photovoltaic panel assembly is pressed and fixed.

The assembly structure of the aluminum alloy pressing block is reasonable in design, simple in structure, and beneficial to conveniently and rapidly realizing locking and fixing of the transverse pressing block or the vertical pressing block and the bridge, so that the solar photovoltaic panel assembly is pressed and fixed on the mounting bracket.

The foregoing is illustrative only, and all changes and modifications that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (7)

1. An assembled structure of aluminum alloy briquetting, its characterized in that: the novel bridge comprises a bridge body, longitudinal connecting plates are vertically arranged on the lower surfaces of two sides of the bridge body, first through holes for locking first bolts are formed in the longitudinal connecting plates, second through holes for penetrating second bolts are formed in two sides of the bridge body, a partition plate strip is arranged on the upper surface of the bridge body, transverse pressing blocks or vertical pressing blocks are connected with two sides of the bridge body, third through holes for penetrating the second bolts are formed in the transverse pressing blocks and the vertical pressing blocks, and the transverse pressing blocks or the vertical pressing blocks are detachably connected with the bridge body through the second bolts.

2. The assembly structure of an aluminum alloy briquette according to claim 1, wherein: the bridge comprises a strip-shaped plate with an inverted trapezoid channel in the middle and a trapezoid bending plate fixed in the inverted trapezoid channel, two first supporting plates are arranged between the inverted trapezoid channel and the trapezoid bending plate, the upper surfaces of the trapezoid bending plate are flush with the upper surfaces of two side parts of the bridge, and the partition board strips are arranged on the upper surfaces of the trapezoid bending plates.

3. The assembly structure of an aluminum alloy briquette according to claim 1 or 2, wherein: the transverse pressing block is in a bent shape and comprises a first bending part and a second bending part, the first end of the first bending part is provided with a C-shaped groove, two end parts of the bridge frame are provided with cylindrical convex parts, and the cylindrical convex parts and the C-shaped groove can be in sliding insertion fit; the second bending part is provided with an upper arc-shaped plate and a lower bending plate, a cavity is formed between the upper arc-shaped plate and the lower bending plate, a second supporting sheet which is supported between the upper arc-shaped plate and the lower bending plate is arranged in the cavity, and the third through hole is arranged on the plate body between the first bending part and the second bending part; a pressing space for pressing the solar photovoltaic panel assembly is formed between the lower surface of the first bending part and the upper surface of the middle part of the bridge frame.

4. The assembly structure of an aluminum alloy briquette according to claim 1 or 2, wherein: the vertical pressing block is provided with a transverse slideway which can be in sliding connection with the two sides of the bridge in the length direction, and the sides of the vertical pressing block are provided with a pressing part for pressing the solar photovoltaic panel assembly; the pressing part and the transverse slideway are respectively arranged on two side parts of the vertical pressing block.

5. The assembly structure of an aluminum alloy briquette according to claim 4, wherein: the vertical pressing block comprises an upper panel, a middle partition plate, side panels, limiting strips, connecting strips and a pressing part, wherein the upper panel and the middle partition plate are arranged in parallel, the side panels are vertically arranged on the first side parts of the upper panel and the middle partition plate, the connecting strips are arranged between the upper panel and the middle partition plate, the limiting strips are arranged on the side panels, the transverse slideway is formed between the limiting strips and the middle partition plate, the third through holes are formed in the upper panel and the middle partition plate in a penetrating mode, the pressing part is connected on the second side parts of the upper panel and the middle partition plate, the pressing part comprises two vertical connecting plates and arc-shaped plates arranged on the free ends of the two vertical connecting plates, the first connecting plate of the two vertical connecting plates is vertically connected with the second side parts of the upper panel and the middle partition plate, and the lower surface of the second connecting plate of the two vertical connecting plates serves as a pressing surface for pressing the solar photovoltaic panel assembly.

6. The assembly structure of an aluminum alloy briquette according to claim 5, wherein: the clamp splice is arranged below the vertical pressing block, the clamp splice is a rectangular plate, a through hole for penetrating the second bolt is formed in the clamp splice, the first side part of the clamp splice is abutted to the lower part of the side panel, and the second side part of the clamp splice is opposite to the pressing surface of the vertical pressing block.

7. The assembly structure of an aluminum alloy briquette according to claim 1, wherein: the bridge frame, the transverse pressing blocks and the vertical pressing blocks are profiles made of aluminum alloy materials.