CN114182889A - Sliding limiting connecting device for buckling type roof structure and photovoltaic structure - Google Patents

Abstract

The invention relates to a sliding limiting connecting device for a buckled roof structure and a photovoltaic structure, which comprises the buckled roof structure, wherein the buckled roof structure comprises an alloy roof board, the end part of the alloy roof board is wrapped in a cavity of the unbuckled roof structure, a stainless steel sliding limiting chuck is arranged at the upper end of the unbuckled roof structure and comprises an upper stainless steel pressing block and a lower stainless steel pressing block, and the photovoltaic structure is arranged in the upper stainless steel pressing block and the lower stainless steel pressing block.

Description

Sliding limiting connecting device for buckling type roof structure and photovoltaic structure

Technical Field

The invention belongs to the technical field of constructional engineering, and particularly relates to a sliding limiting connecting device for a buckled roof structure and a photovoltaic structure.

Background

In recent years, with the acceleration of urban modern construction and the rapid development of national economy, electric energy gradually becomes an important energy source. Compared with traditional thermal power generation, wind power generation and nuclear power generation, solar power generation is the most ideal sustainable renewable energy power generation technology, and compared with other power generation modes, the solar power generation technology has the characteristics of environmental protection and cost saving.

Under the background, the roof photovoltaic power generation technology is produced at the same time, and the technology is gradually matured and popularized with the strong popularization of the country and the support of related policies. Under the background that the roof photovoltaic power generation technology is gradually popularized, the connection of the photovoltaic panel and various types of traditional roof panels becomes an inevitable technical problem. Especially, along with the continuous change of outdoor temperature, the photovoltaic structure and the roof panel below the photovoltaic structure can generate different deformations due to the expansion with heat and contraction with cold of materials, and the connection between the photovoltaic structure and the roof structure also needs corresponding adjustment.

In order to solve the problem of connection between the photovoltaic structure and the buckled roof and effectively eliminate internal force generated by material deformation, the sliding limiting connection device for the buckled roof structure and the photovoltaic structure is provided.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, provides the sliding limiting connecting device for the buckling type roof structure and the photovoltaic structure, solves the problem of connection of the buckling type roof structure and the photovoltaic structure, and reduces the influence of thermal expansion and cold contraction on the roof photovoltaic structure and the buckling type roof structure.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows: the utility model provides a slip spacing connecting device for buckled roofing structure and photovoltaic structure, includes buckled roofing structure, buckled roofing structure includes alloy roof boarding, and the tip of alloy roof boarding is laid the spacing chuck of stainless steel slip in the cavity of non-buckled roofing structure by the cladding, the upper end of non-buckled roofing structure, the spacing chuck of stainless steel slip includes upper portion stainless steel briquetting, lower part stainless steel briquetting, has laid photovoltaic structure in upper portion stainless steel briquetting, the lower part stainless steel briquetting.

As a preferred scheme of the invention, the buckled roof structure comprises a roof purline at the bottom, a plurality of aluminum alloy fixed supports are arranged on the roof purline at equal intervals, and the top of each aluminum alloy fixed support is used for bearing the end part of the alloy roof panel.

In a preferred embodiment of the present invention, the end portion is curled inward in an arc-like configuration without being closed.

As a preferred scheme of the invention, the non-fastened roof structure comprises a first fixture body and a second fixture body, wherein an extension part extends out of the end part of the first fixture body, the extension part is clamped into a notch of the second fixture body, the first fixture body and the second fixture body are connected through a fixture fastening bolt, and the fixture fastening bolt is positioned at the upper ends of the first fixture body and the second fixture body.

As a preferable scheme of the invention, the lower ends of the first clamp body and the second clamp body form a cavity, the cavity is in a round shape with an upper opening and a lower opening, and the upper end of the cavity is provided with a limiting block.

As a preferred scheme of the invention, the supporting parts are symmetrically arranged at the top of the second clamp body, a rectangular notch is formed between the supporting parts, the head of the first clamp fastening bolt is clamped in the rectangular notch, and the other end of the first clamp fastening bolt sequentially penetrates through the upper stainless steel pressing block, the stainless steel pressing block cavity and the lower stainless steel pressing block and is locked by the nut.

In a preferred embodiment of the present invention, the upper stainless steel pressing block is provided with an upper limiting portion, and the lower stainless steel pressing block is provided with a lower limiting portion adapted to the upper limiting portion.

According to a preferable scheme of the invention, rubber pads are arranged on the inner sides of the upper stainless steel pressing block and the lower stainless steel pressing block, and sawteeth are arranged on the inner sides of the rubber pads.

As a preferable scheme of the invention, the nut is arranged in the middle of the upper stainless steel pressing block, and the up-and-down movement of the nut controls the distance between the upper stainless steel pressing block and the lower stainless steel pressing block.

In a preferred embodiment of the present invention, the bottom of the upper stainless steel compact and the bottom of the lower stainless steel compact are uneven.

The invention has the beneficial effects that:

1. according to the invention, the buckled roof structure and the photovoltaic structure are connected through the unbuckled roof structure and the stainless steel sliding limiting chuck, the clamp fastening bolt on the unbuckled roof structure adjusts the buckling roof structure to be locked, and the first chuck fastening bolt on the stainless steel sliding limiting chuck adjusts the photovoltaic structure to be locked, so that the photovoltaic structure and the buckled roof structure are effectively prevented from being deformed due to expansion caused by heat and contraction caused by cold of materials under the condition of temperature change.

2. The rubber pad in the stainless steel sliding limiting chuck is in a sawtooth shape, and the shape can effectively increase the connection firmness of the rubber pad and the photovoltaic structure; the bottom of the upper stainless steel pressing block and the bottom of the lower stainless steel pressing block are uneven, friction force between the stainless steel sliding limiting chuck and the non-buckling roof structure is increased, and the stainless steel sliding limiting chuck is prevented from falling off.

3. The invention has simple structure, convenient processing and installation and definite and reliable force transmission, and meets the requirement of industrialized production.

4. The limiting block is arranged to prevent the first clamp body and the second clamp body from being damaged to the buckled roof structure due to excessive locking of the clamp fastening bolt, and meanwhile, the service lives of the first clamp body and the second clamp body are prolonged; the upper limiting part and the lower limiting part on the upper stainless steel pressing block and the lower stainless steel pressing block control the distance between the upper stainless steel pressing block and the lower stainless steel pressing block, and the upper stainless steel pressing block and the lower stainless steel pressing block are prevented from falling off.

5. The invention locks the buckling type roof structure and the photovoltaic structure, avoids the sliding of the buckling type roof structure and the photovoltaic structure in all directions, and is beneficial to the realization of the roof photovoltaic power generation technology.

Convenient illustration of the attached drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of a portion of the present invention at A;

FIG. 3 is a schematic side view of the present invention;

FIG. 4 is an enlarged view of a portion of the invention at B;

reference numbers in the figures: buckled roofing structure 1, not buckled roofing structure 2, the spacing chuck of stainless steel slip 3, photovoltaic structure 4, roofing purlin 11, aluminum alloy fixing support 12, alloy roof boarding 13, first anchor clamps body 21, the second anchor clamps body 22, anchor clamps fastening bolt 23, stopper 24, cavity 25, upper portion stainless steel briquetting 31, lower part stainless steel briquetting 32, rubber pad 33, first anchor clamps fastening bolt 34, stainless steel briquetting cavity 35, nut 36, tip 131, extension portion 211, supporting part 221, rectangular notch 222, notch 223, the spacing portion 311 in upper portion, the spacing portion 321 in lower portion.

Detailed Description

The following describes embodiments of the present invention in detail with reference to the accompanying drawings.

As shown in fig. 1 to 4, a sliding limiting connection device for a buckled roof structure and a photovoltaic structure comprises a buckled roof structure 1, wherein the buckled roof structure 1 comprises an alloy roof panel 13, an end 131 of the alloy roof panel 13 is wrapped in a cavity 23 of a non-buckled roof structure 2, a stainless steel sliding limiting chuck 3 is arranged at the upper end of the non-buckled roof structure 2, the stainless steel sliding limiting chuck 3 comprises an upper stainless steel pressing block 31 and a lower stainless steel pressing block 32, the photovoltaic structure 4 is arranged in the upper stainless steel pressing block 31 and the lower stainless steel pressing block 32, and the photovoltaic structure 4 is cadmium telluride photovoltaic component or cadmium telluride photovoltaic glass. The clamping of the upper stainless steel pressing block 31 and the lower stainless steel pressing block 32 controls the locking of the photovoltaic structure 4.

Specifically, when the clamp is not locked to fasten the bolt 23, the buckled roof structure 1 is a moving part; when the first chuck fastening bolt 34 is not locked, the photovoltaic structure 4 is a movable part; when locking fixture fastening bolt 23, do not buckled roofing structure 2 and buckled roofing structure 1 links into an organic whole, when locking first chuck fastening bolt 34, photovoltaic structure 4 and the spacing chuck 3 of stainless steel slip link into an organic whole, it is corresponding, first chuck fastening bolt 34 will not buckled roofing structure 2, the spacing chuck 3 of stainless steel slip links together, fixture fastening bolt 23, the locking of first chuck fastening bolt 34, buckled roofing structure 1 has been restricted, the slip of photovoltaic structure 4, and simultaneously, because fixture fastening bolt 23, first chuck fastening bolt 34 is the adjustable, can effectively eliminate the material and warp and the problem that brings.

As shown in fig. 1, the alloy roof panels 13 and the photovoltaic structures 4 are both arranged transversely, and the combined structure of the unbuckled roof structure 2 and the stainless steel sliding limiting chuck 3 is connected with the adjacent alloy roof panels 13 and the adjacent photovoltaic structures 4.

As shown in fig. 1 and 3, the buckled roof structure 1 includes a roof purline 11 at the bottom, two roof purlines 11 are symmetrically arranged in a group, a plurality of aluminum alloy fixing supports 12 are arranged on the roof purline 11 at equal intervals, the aluminum alloy fixing supports 12 are in threaded connection with the roof purline 11, the top of the aluminum alloy fixing support 12 is used for bearing the end 131 of the alloy roof panel 13, the top of the aluminum alloy fixing support 12 is in a three-petal structure, the end 131 is curled inwards to form an unclosed arc-shaped structure, the end 131 is sleeved on the three-petal structure, the three-petal structure of the aluminum alloy fixing support 12 supports the arc-shaped structure of the end 131 from three points, and the end 131 is guaranteed to be stably installed in the cavity 23 without deformation.

As shown in fig. 2, the non-fastened roof structure 2 includes a first clamp body 21 and a second clamp body 22, an extension portion 211 extends from an end of the first clamp body 21, the extension portion 211 is clamped into a notch 223 of the second clamp body 22, so as to achieve positioning and installation of the first clamp body 21 and the second clamp body 22, the first clamp body 21 and the second clamp body 22 are connected through a clamp fastening bolt 23, the clamp fastening bolt 23 is located at an upper end of the first clamp body 21 and the second clamp body 22, and the clamp fastening bolt 23 controls the cavity 23 to be smaller and larger when being locked and loosened, and accordingly controls locking and loosening of the end portion 131.

The lower ends of the first clamp body 21 and the second clamp body 22 form a cavity 25, the cavity 25 is circular and is provided with an upper opening and a lower opening, the inner surface of the cavity 25 is abutted to the outer surface of the end part 131, and the upper end of the cavity 25 is provided with a limiting block 24.

The roof panel is yielding under the temperature difference effect, and stopper 24 can avoid leading to the roof panel condition that can not stretch out and draw back so as to tear because of anchor clamps fastening bolt 23 excessively locks.

The supporting parts 221 are symmetrically arranged at the top of the second clamp body 22, the stainless steel sliding limiting clamp 3 is supported on the supporting parts 221, rectangular notches 222 are formed among the supporting parts 221, the heads of the first clamp fastening bolts 34 are clamped into the rectangular notches 222, the other ends of the first clamp fastening bolts 34 sequentially penetrate through the lower stainless steel pressing block 32, the stainless steel pressing block cavity 35 and the upper stainless steel pressing block 31 and are locked by the nuts 36, the locking and the loosening of the nuts 36 control the distance between the upper stainless steel pressing block 31 and the lower stainless steel pressing block 32, and accordingly, the locking and the loosening of the photovoltaic structure 4 are controlled.

As shown in fig. 4, an upper limiting portion 311 is disposed inside the upper stainless steel pressing block 31, and correspondingly, a lower limiting portion 321 adapted to the upper limiting portion 311 is disposed inside the lower stainless steel pressing block 32, when the nut 36 is loosened to a certain degree, the upper limiting portion 311 and the lower limiting portion 321 are clamped to realize limiting, and the upper stainless steel pressing block 31 and the lower stainless steel pressing block 32 are prevented from being separated from each other to affect the stability of the structure.

Rubber pads 33 are arranged on the inner sides of the upper stainless steel pressing block 31 and the lower stainless steel pressing block 32, the rubber pads 33 are clamped into the grooves of the upper stainless steel pressing block 31 and the lower stainless steel pressing block 32 through protruding blocks at the tail parts, sawteeth are arranged on the inner sides of the rubber pads 33, and the biting force of the stainless steel sliding limiting chuck 3 and the photovoltaic structure 4 can be effectively increased through the sawteeth.

The nut 36 is arranged in the middle of the upper stainless steel pressing block 31, and the distance between the upper stainless steel pressing block 31 and the lower stainless steel pressing block 32 is controlled by loosening and tightening the nut 36.

The bottom of the upper stainless steel pressing block 31 and the bottom of the lower stainless steel pressing block 32 are uneven, so that the friction force between the stainless steel sliding limiting chuck 3 and the unbuckled roof structure 2 is increased, and the falling off of the stainless steel sliding limiting chuck 3 is avoided.

The specific implementation is a slip spacing connecting device that is used for buckled roofing structure and photovoltaic structure:

firstly, the buckled roof structure 1 is connected with the clamp fastening bolt 23 through the unbuckled roof structure 2, then the clamp fastening bolt 23 is locked, and the buckled roof structure 1 and the unbuckled roof structure 2 are fixed; meanwhile, the rubber pads 33 are respectively installed in the upper stainless steel pressing block 31 and the lower stainless steel pressing block 32, and the installed upper stainless steel pressing block 31 and lower stainless steel pressing block 32 are sleeved on the first chuck fastening bolt 34; finally, photovoltaic system 4 is inserted into rubber mat 33, and photovoltaic structure 4 is locked by tightening nut 36.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention; thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Although the reference numerals in the figures are used more here: the roof structure comprises a buckled roof structure 1, a non-buckled roof structure 2, a stainless steel sliding limiting chuck 3, a photovoltaic structure 4, a roof purline 11, an aluminum alloy fixed support 12, an alloy roof panel 13, a first chuck body 21, a second chuck body 22, a clamp fastening bolt 23, a limiting block 24, a cavity 25, an upper stainless steel pressing block 31, a lower stainless steel pressing block 32, a rubber pad 33, a first chuck fastening bolt 34, a stainless steel pressing block cavity 35, a nut 36, an end part 131, an extension part 211, a supporting part 221, a rectangular notch 222, a notch 223, an upper limiting part 311, a lower limiting part 321 and other terms, but the possibility of using other terms is not excluded; these terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (10)

1. The utility model provides a slip spacing connecting device that is used for buckled roofing structure and photovoltaic structure which characterized in that: including buckled roofing structure (1), buckled roofing structure (1) is including alloy roof boarding (13), and tip (131) of alloy roof boarding (13) are by the cladding in cavity (23) of non-buckled roofing structure (2), and stainless steel slip spacing chuck (3) are laid to the upper end of non-buckled roofing structure (2), stainless steel slip spacing chuck (3) are including upper portion stainless steel briquetting (31), lower part stainless steel briquetting (32), have laid photovoltaic structure (4) in upper portion stainless steel briquetting (31), lower part stainless steel briquetting (32).

2. The sliding limit connecting device for the buckled roof structure and the photovoltaic structure as claimed in claim 1, wherein: buckled roofing structure (1) includes roofing purlin (11) of bottom, and a plurality of aluminum alloy fixing support (12) are laid to roofing purlin (11) equidistant, and alloy roof board (13) tip (131) are accepted at aluminum alloy fixing support (12) top.

3. The sliding limit connecting device for the buckled roof structure and the photovoltaic structure as claimed in claim 2, wherein: the end portion (131) is curled inwards to form an unclosed arc-shaped structure.

4. The sliding limit connecting device for the buckled roof structure and the photovoltaic structure as claimed in claim 1, wherein: not buckled roofing structure (2) includes first anchor clamps body (21), second anchor clamps body (22), and extension portion (211) extend out from first anchor clamps body (21) tip, and notch (223) of second anchor clamps body (22) are gone into to extension portion (211), connect through anchor clamps fastening bolt (23) between first anchor clamps body (21), the second anchor clamps body (22), anchor clamps fastening bolt (23) are located first anchor clamps body (21), second anchor clamps body (22) upper end.

5. The sliding limit connecting device for the buckled roof structure and the photovoltaic structure as claimed in claim 4, wherein: the lower ends of the first clamp body (21) and the second clamp body (22) form a cavity (25), the cavity (25) is circular and is provided with an upper opening and a lower opening, and a limiting block (24) is arranged at the upper end of the cavity (25).

6. The sliding limit connecting device for the buckled roof structure and the photovoltaic structure as claimed in claim 5, wherein: supporting parts (221) are symmetrically arranged at the top of the second clamp body (22), rectangular notches (222) are formed among the supporting parts (221), the heads of the first chuck fastening bolts (34) are clamped into the rectangular notches (222), and the other ends of the first chuck fastening bolts (34) sequentially penetrate through the upper stainless steel pressing block (31), the stainless steel pressing block cavity (35) and the lower stainless steel pressing block (32) and are locked by nuts (36).

7. The sliding limit connecting device for the buckled roof structure and the photovoltaic structure as claimed in claim 1, wherein: an upper limiting part (311) is arranged in the upper stainless steel pressing block (31), and a lower limiting part (321) matched with the upper limiting part (311) is arranged in the lower stainless steel pressing block (32) correspondingly.

8. The sliding limit connecting device for the buckled roof structure and the photovoltaic structure as claimed in claim 7, wherein: rubber pads (33) are arranged on the inner sides of the upper stainless steel pressing block (31) and the lower stainless steel pressing block (32), and sawteeth are arranged on the inner sides of the rubber pads (33).

9. The sliding limit connecting device for the buckled roof structure and the photovoltaic structure as claimed in claim 8, wherein: and a nut (36) is arranged in the middle of the upper stainless steel pressing block (31), and the up-and-down movement of the nut (36) controls the distance between the upper stainless steel pressing block (31) and the lower stainless steel pressing block (32).

10. The sliding limit connecting device for the buckled roof structure and the photovoltaic structure as claimed in claim 1, wherein: the bottoms of the upper stainless steel pressing block (31) and the lower stainless steel pressing block (32) are uneven.

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