CN219247750U - M-shaped BIPV drainage bracket with fixing structure - Google Patents

Abstract

The utility model provides an M-shaped BIPV drainage bracket with a fixed structure, which comprises a photovoltaic module frame, a photovoltaic module plate, an M-shaped bracket, a pressing block supporting component and a bracket fixing piece; the briquetting supporting component comprises a photovoltaic supporting frame and two groups of photovoltaic component pressing blocks, an adjusting fixing piece is arranged on the photovoltaic component pressing blocks, mounting portions are arranged on two sides of the M-shaped support, clamping positions are arranged between the photovoltaic supporting frame and the photovoltaic component pressing blocks, and the photovoltaic component frame is clamped with the briquetting supporting component through the clamping positions. The beneficial effects are as follows: can solve current adoption photovoltaic module board and install the briquetting by the workman downwards on the subassembly and fix photovoltaic module board, lead to four faces of installation and empty, the problem that high altitude construction operation exists great potential safety hazard, through using this structure, adjust the mounting and install briquetting supporting component on the installation department of M type support side, can accomplish the installation with the same height of M type support bottom, still improved the efficiency of installation operation when improving personnel's operation's security.

Description

M-shaped BIPV drainage bracket with fixing structure

Technical Field

The utility model relates to the technical field of display modules, in particular to an M-shaped BIPV drainage bracket with a fixed structure.

Background

The integrated simplified BIPV for photovoltaic building is a technology for integrating a solar power generation product onto a building, and the photovoltaic building-integration is different from the form that a photovoltaic system is attached to the building, and can be generally divided into two main types: one is the combination of the photovoltaic matrix and the building, and the other is the integration of the photovoltaic matrix and the building, such as a photovoltaic tile roof, a photovoltaic curtain wall, a photovoltaic daylighting roof and the like, wherein the combination of the photovoltaic matrix and the building is a common form, particularly the combination of the photovoltaic matrix and the building roof.

As shown in fig. 1, the conventional M-type drainage bracket connection mode in the photovoltaic bracket market at present is as follows: the M-shaped drainage support 1 is installed on the square steel pipe purline 3 through self-tapping screws, the component supporting plates 2 are installed on two sides of the M-shaped drainage support 1 through self-tapping screws, and the photovoltaic component plates 5 are fixed on the component supporting plates 2 through installation workers at the height above the components and downward installation pressing blocks 4. The adoption of the current structural mode is that because of the M-shaped drainage bracket, an installer needs to climb to the top of the assembly plate to downwards install the pressing block 4, so that the installer needs to perform high-altitude operation, a layer of photovoltaic assembly plate 5 is additionally arranged on a flat roof in most of the application scenes of the photovoltaic assembly, four faces of the photovoltaic assembly plate 5 are empty, effective construction and use of safety measures are difficult, and great potential safety hazards exist in the installation operation.

Disclosure of Invention

In order to solve the problems in the prior art, the utility model provides the M-type BIPV drainage bracket with the fixing structure, which solves the problem that the installation operation has larger potential safety hazard due to the fact that a photovoltaic module board is fixed on a module supporting plate by installing a pressing block downwards on the module by an installer in the prior art.

The utility model relates to an M-shaped BIPV drainage bracket with a fixing structure, which comprises a photovoltaic module frame, a photovoltaic module plate arranged on the photovoltaic module frame, an M-shaped bracket, a pressing block supporting component and a bracket fixing piece, wherein the pressing block supporting component is arranged on the M-shaped bracket, and the bracket fixing piece is used for fixing the M-shaped bracket to a designated position; the briquetting supporting component comprises a photovoltaic support frame and two groups of photovoltaic component pressing blocks, an adjusting fixing piece is arranged on the photovoltaic component pressing blocks, installing parts matched with the adjusting fixing piece are arranged on two sides of the M-shaped support frame, the two groups of photovoltaic component pressing blocks are respectively arranged at two ends of the photovoltaic support frame, clamping positions matched with and fixed to the photovoltaic component frame are arranged between the photovoltaic support frame and the photovoltaic component pressing blocks, the photovoltaic component frame is clamped with the briquetting supporting component through the clamping positions, and the adjusting fixing piece can control the photovoltaic component pressing blocks to be far away from or close to the clamping positions to achieve installation and fixation of the photovoltaic component frame.

The utility model is further improved, the M-shaped bracket comprises a first transverse edge, bent edges are arranged on two sides of the first transverse edge, a second transverse edge is arranged on one side, away from the first transverse edge, of the bent edge, a side edge is arranged on one side, away from the bent edge, of the second transverse edge, and a third transverse edge is arranged on one side, away from the second transverse edge, of the side edge.

According to the utility model, the photovoltaic support frame is further improved, the photovoltaic support frame comprises a first transverse frame, first inclined frames matched with the bending edges are arranged on two sides of the first transverse frame, a second transverse frame is arranged on one side, away from the first transverse frame, of the first inclined frame, a side frame is arranged on one side, away from the first inclined frame, of the second transverse frame, a pressing block of the photovoltaic assembly comprises a pressing block head, the pressing block head is arranged on the second transverse frame, and a pressing block edge matched with the side frame is arranged on one side of the pressing block head.

According to the utility model, a pressing block bottom bracket is arranged at one end of the side frame, which is far away from the second transverse frame, and the photovoltaic module pressing block is arranged on the pressing block bottom bracket.

According to the utility model, a mounting groove is formed in the upper end of the photovoltaic module frame and is connected with the photovoltaic module plate, a mounting wing is outwards extended from the lower end of the photovoltaic module frame, a boss is arranged on the first transverse frame, and the mounting wing is arranged between the boss and the pressing block head.

According to the photovoltaic module press block, the guide parts matched with the photovoltaic module press block are arranged on two sides of the boss, the guide blocks matched with the guide parts are arranged on the lower end face of the press block head, the positioning convex blocks are arranged on two sides of the boss in an outward extending mode, the convex parts matched with the positioning convex blocks are arranged on the guide blocks, and the positioning convex blocks can position the guide blocks.

According to the utility model, the bracket fixing piece comprises a U-shaped bolt, a bolt mounting hole matched with the U-shaped bolt is formed in the third transverse edge, and the U-shaped bolt passes through the bolt mounting hole to be mounted.

According to the utility model, the bracket fixing piece is further improved, the bracket fixing piece further comprises an upper pressing block and a lower pressing block, bolt holes matched with U-shaped bolts are formed in the upper pressing block and the lower pressing block, a third transverse edge is arranged between the upper pressing block and the lower pressing block, limiting saw teeth are arranged between the upper pressing block and the lower pressing block, and the relative positions of the upper pressing block and the lower pressing block can be fixed through the limiting saw teeth.

According to the utility model, the lower pressing block is provided with the limit baffle matched with the side edge, and the side edge is arranged between the limit baffle and the upper pressing block.

According to the utility model, the adjusting fixing piece is an adjusting bolt, the pressing block supporting component is provided with adjusting holes matched with the adjusting bolt, and the mounting part comprises a plurality of groups of mounting holes which are arranged at equal intervals.

Compared with the prior art, the utility model has the beneficial effects that: the utility model provides an M-shaped BIPV drainage bracket with a fixing structure, which can effectively solve the problems that in the prior art, a photovoltaic module plate is fixed on a module supporting plate by adopting a pressing block which is downwards installed on the module by an installer, so that the installation four faces are empty and the operation at high altitude has larger potential safety hazard.

Drawings

For a clearer description of the present application or of the solutions of the prior art, a brief introduction will be given below to the drawings used in the description of the embodiments or of the prior art, it being apparent that the drawings in the description below are some embodiments of the present application, from which other drawings can be obtained, without the inventive effort for a person skilled in the art.

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

FIG. 2 is a schematic diagram of the overall structure of the present utility model;

FIG. 3 is a schematic view of another view angle structure of the present utility model;

fig. 4 is a schematic view of the front projection view cross-section of the present utility model.

Detailed Description

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; the terminology used in the description of the applications herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application; the terms "comprising" and "having" and any variations thereof in the description and claims of the present application and in the description of the figures above are intended to cover non-exclusive inclusions. The terms first, second and the like in the description and in the claims or in the above-described figures, are used for distinguishing between different objects and not necessarily for describing a sequential or chronological order.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the present application. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

In order to better understand the technical solutions of the present application, the following description will clearly and completely describe the technical solutions in the embodiments of the present application with reference to the accompanying drawings.

As shown in fig. 2 to 4, the M-shaped BIPV drainage bracket with the fixing structure of the present utility model includes a photovoltaic module frame 6, a photovoltaic module board 5, an M-shaped bracket 1, a press block supporting module 7 and a bracket fixing member 8.

The upper end of the photovoltaic module frame 6 is provided with a mounting groove 61 for the photovoltaic module plate 5, and the photovoltaic module plate 5 is arranged in the mounting groove 61 for fixing.

The lower end of the photovoltaic module frame 6 extends outwards to form a mounting wing 62.

The M-shaped bracket 1 comprises a first transverse edge 11, bent edges 12 are arranged on two sides of the first transverse edge 11, a second transverse edge 13 is arranged on one side, far away from the first transverse edge 11, of the bent edges 12, a side edge 14 is arranged on one side, far away from the bent edges 12, of the second transverse edge 13, and a third transverse edge 15 is arranged on one side, far away from the second transverse edge 13, of the side edge 14.

The bracket fixing member 8 comprises a U-shaped bolt 81, and a bolt mounting hole 141 which is matched with the U-shaped bolt 81 is formed in the third transverse edge 15.

The U-shaped bolts 81 penetrate through the bolt mounting holes 141 to fixedly connect the M-shaped support 1 with the square steel tube 9, so that the fixing is more stable compared with the traditional self-tapping screw.

The bracket fixing member 8 further comprises an upper pressing block 82 and a lower pressing block 83, bolt holes matched with the U-shaped bolts 81 are formed in the upper pressing block 82 and the lower pressing block 83, and the third transverse edge 15 is arranged between the upper pressing block 82 and the lower pressing block 83.

The U-shaped bolt 81 passes through the bolt hole of the upper pressing block 82, then passes through the bolt mounting hole 141 of the third transverse edge 15, and finally passes through the bolt hole of the lower pressing block 83, so that the upper pressing block 82, the M-shaped bracket 1, the lower pressing block 83 and the square steel tube 9 are fixedly connected.

The adoption is gone up briquetting 82 and is gone down briquetting 83 and carry out the centre gripping to the third horizontal limit 15, can effectually solve among the prior art adopt self-tapping screw directly install M type support 1 on square steel pipe 9, because M type support 1 wall is thinner, appears the junction damage easily, leads to M type support 1 to connect unstable and the risk that drops.

Limiting saw teeth 821 are arranged between the upper pressing block 82 and the lower pressing block 83, and relative positions between the upper pressing block 82 and the lower pressing block 83 can be fixed to prevent offset through setting and matching of the limiting saw teeth 821.

The lower press block 83 is provided with a limit baffle 831 cooperating with the side 14, and the side 14 is arranged between the limit baffle 831 and the upper press block 82.

The M-shaped bracket 1 can be further positioned through the arrangement of the limiting baffle 831, so that the M-shaped bracket 1 is prevented from being deviated in the installation process.

The briquetting support assembly 7 comprises a photovoltaic support 71, an adjusting fixing piece 72 and a photovoltaic assembly briquetting 73, wherein the adjusting fixing piece 72 and the photovoltaic assembly briquetting 73 are two groups, and the adjusting fixing piece 72 corresponds to the photovoltaic assembly briquetting 73 one by one.

The photovoltaic support frame 71 includes first crossbearer 711, and first crossbearer 711 both sides are provided with first sloping frame 712 with the cooperation of bent hem 12, and first sloping frame 712 is kept away from first crossbearer 711 one side and is provided with second crossbearer 713, and second crossbearer 713 is kept away from first sloping frame 712 one side and is provided with side bearer 714, and photovoltaic module briquetting 73 includes the briquetting head 731, and briquetting head 731 sets up on second crossbearer 713, and briquetting head 731 one side is provided with the briquetting limit 732 of installing with side bearer 714 cooperation.

The photovoltaic module frame 6 can be effectively supported by the arrangement of the photovoltaic support frame 71.

The side frame 714 is provided with the briquetting collet away from second crossbearer 713 one end, and photovoltaic module briquetting 73 sets up on the briquetting collet.

Through the setting of briquetting collet for installation, regulation and location of photovoltaic module briquetting 73 are more convenient, improve installer's operating efficiency.

The adjustment fixture 72 is an adjustment bolt, and adjustment holes for engaging the adjustment bolt are provided in both the press block side 732 and the side frame 714.

Through adjusting bolt's regulation mode, can make staff simple to operate to adjust through on briquetting limit 732 and side bearer 714, make the fixed to photovoltaic module frame 6, do not need the installer to stand and install downwards at photovoltaic module top, directly can install the action at the same height with the drainage support.

The both sides side 14 of M type support 1 all is provided with the installation department, and the installation department includes the mounting hole 141 of multiunit and adjusting bolt cooperation installation, multiunit mounting hole 141 equidistant setting.

Through the setting of multiunit mounting hole 141, can set up multiunit briquetting support assembly 7 and install photovoltaic module frame 6, perhaps adjust briquetting support assembly 7's setting, improve the flexibility of installation.

The first cross frame 711 is provided with a boss 7111, the boss 7111 and the pressing block head 731 are provided with clamping positions, the clamping positions are clamping gaps, and the mounting wings 62 are mounted in the clamping positions of the boss 7111 and the pressing block head 731.

Through the setting of adjusting bolt, can adjust the relative position of photovoltaic module briquetting 73 at photovoltaic support frame 71 through the loosening and tightening to adjusting bolt.

Specifically, the photovoltaic module frame 6 is placed on the photovoltaic support frame 71 from between two groups of photovoltaic module pressing blocks 73, and then the photovoltaic module pressing blocks 73 move towards the center of the photovoltaic support frame 71 by screwing the adjusting bolts, so that the mounting wings 62 of the photovoltaic module frame 6 are clamped into gaps between the upper surfaces of the bosses 7111 and the upper surfaces of the pressing block heads 731, and the photovoltaic module frame 6 is mounted.

For the disassembly flow, the adjusting bolt is unscrewed, and then the photovoltaic module pressing block 73 is moved away from the center direction of the photovoltaic support frame 71, so that the detachment of the mounting wing 62 is realized, and the disassembly of the photovoltaic module frame 6 is completed.

The structure of the existing product is effectively replaced by the mode, and the installation action can be carried out only by the height identical to the bottom of the M-shaped bracket 1.

And because the briquetting limit 732 and the regulation hole setting of side bearer 714 can effectually replace traditional direct through self tapping screw with layer board and M type support 1 install, lead to the junction damaged, appear M type support 1 and connect unstable and the risk that drops.

The boss 7111 both sides are provided with photovoltaic module briquetting 73 complex guide part, and the briquetting head 731 single face is provided with the guide block with guide part complex under, can effectively carry out the effect of a direction to the motion of briquetting head 731 through the cooperation of guide block and guide part, improves operating personnel's installation effectiveness.

The boss 7111 both sides outwards extend and are provided with the location lug, be provided with on the guide block with location lug complex bellying, can fix a position the guide block through the location lug, improve the precision after the installation.

From the above, the beneficial effects of the utility model are as follows: adopt its mechanism, can effectually solve among the prior art adopt photovoltaic module board 55 to install briquetting 4 downwards on the subassembly by installer and fix photovoltaic module board 55 on subassembly layer board 2, lead to four faces of installation, the problem that there is great potential safety hazard in high altitude construction operation, through using this product structure, adjust mounting 72 and install briquetting supporting component 7 on the installation department of M type support 1 side 14, can accomplish the installation with the same height of M type support 1 bottom, still improved the efficiency of installation operation when improving the security of installer operation.

The above embodiments are preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model, which includes but is not limited to the embodiments, and equivalent modifications according to the present utility model are within the scope of the present utility model.

Claims (10)

1. M formula BIPV drainage support with fixed knot constructs, is in including photovoltaic module frame and setting photovoltaic module board on the photovoltaic module frame, its characterized in that: the device comprises an M-shaped bracket, a pressing block supporting assembly and a bracket fixing piece, wherein the pressing block supporting assembly is arranged on the M-shaped bracket, and the bracket fixing piece is used for fixing the M-shaped bracket to a designated position;

the briquetting supporting component comprises a photovoltaic support frame and two groups of photovoltaic component pressing blocks, an adjusting fixing piece is arranged on the photovoltaic component pressing blocks, two sides of the M-shaped support are provided with installing parts matched with the adjusting fixing piece, the two groups of photovoltaic component pressing blocks are respectively arranged at two ends of the photovoltaic support frame, clamping positions for fixing the photovoltaic component frame in a matched mode are arranged between the photovoltaic support frame and the photovoltaic component pressing blocks, the photovoltaic component frame is connected with the briquetting supporting component in a clamping mode through the clamping positions, and the adjusting fixing piece can control the photovoltaic component pressing blocks to be far away from or close to the clamping positions to achieve installation fixing of the photovoltaic component frame.

2. The M-type BIPV drainage stent with a fixed structure according to claim 1, wherein: the M-shaped support comprises a first transverse edge, bent edges are arranged on two sides of the first transverse edge, a second transverse edge is arranged on one side, away from the first transverse edge, of the bent edge, a side edge is arranged on one side, away from the bent edge, of the second transverse edge, and a third transverse edge is arranged on one side, away from the second transverse edge, of the side edge.

3. The M-type BIPV drainage stent with a fixed structure according to claim 2, wherein: the photovoltaic support frame comprises a first transverse frame, first oblique frames matched with the bending edges are arranged on two sides of the first transverse frame, the first oblique frames are far away from the first transverse frame, second transverse frames are arranged on one sides of the second transverse frames, side frames are arranged on one sides of the first oblique frames, the photovoltaic module pressing blocks comprise pressing block heads, the pressing block heads are arranged on the second transverse frames, and pressing block edges matched with the side frames are arranged on one sides of the pressing block heads.

4. An M-type BIPV drainage stent having a fixed structure according to claim 3, wherein: and one end of the side frame, which is far away from the second transverse frame, is provided with a pressing block bottom bracket, and the photovoltaic module pressing block is arranged on the pressing block bottom bracket.

5. An M-type BIPV drainage stent having a fixed structure according to claim 3, wherein: the photovoltaic module frame upper end be provided with the mounting groove of photovoltaic module board, photovoltaic module frame lower extreme outwards extends has the installation wing, be provided with the boss on the first crossbearer, the installation wing is installed the boss with between the briquetting head.

6. The M-type BIPV drainage stent with fixing structure according to claim 5, wherein: the utility model discloses a photovoltaic module briquetting, including boss, locating lug, photovoltaic module briquetting complex guide part is provided with in boss both sides, the briquetting head lower terminal surface be provided with guide part complex guide block, boss both sides outwards extend and are provided with the location lug, be provided with on the guide block with location lug complex bellying, the location lug can be right the guide block is fixed a position.

7. The M-type BIPV drainage stent with a fixed structure according to claim 2, wherein: the support mounting comprises a U-shaped bolt, a bolt mounting hole matched with the U-shaped bolt is formed in the third transverse edge, and the U-shaped bolt penetrates through the bolt mounting hole to be mounted.

8. The M-type BIPV drainage stent with fixing structure according to claim 7, wherein: the support mounting still includes briquetting and lower briquetting, go up the briquetting with be provided with on the lower briquetting with U type bolt complex bolt hole, the third horizontal limit sets up go up the briquetting with between the lower briquetting, go up the briquetting and be provided with spacing sawtooth down between the briquetting, spacing sawtooth can be so that go up the briquetting with relative position is fixed down between the briquetting.

9. The M-type BIPV drainage stent with fixing structure according to claim 8, wherein: the lower pressing block is provided with a limit baffle matched with the side edge, and the side edge is arranged between the limit baffle and the upper pressing block.

10. An M-type BIPV drainage stent having a fixing structure according to any one of claims 1 to 9, wherein: the adjusting fixing piece is an adjusting bolt, adjusting holes matched with the adjusting bolt are formed in the pressing block supporting assembly, and the mounting portion comprises a plurality of groups of mounting holes which are arranged at equal intervals.

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