CN219980694U - Fixed bolster is used to slope topography that north-south was arranged to long row - Google Patents

Abstract

The utility model provides a fixing support for slope terrains which are arranged in a north-south direction in long rows, comprising a multi-span frame and purlines, wherein the purlines are arranged on the multi-span frame, the multi-span frame can be adjusted in height according to the fluctuation of the terrains, the multi-span frame is arranged on a foundation, and embedded steel pipes are arranged on the foundation. The multi-span frame comprises a diagonal beam and a plurality of upright posts arranged along a slope, diagonal braces are arranged between the diagonal beam and the upright posts, and two diagonal braces are arranged between two adjacent upright posts, namely a diagonal brace I and a diagonal brace II; wherein, the upright post is inserted into the embedded steel pipe to be connected with the foundation, the upright post installed on the undulating topography is provided with an upright post lengthening device, and the diagonal bracing connected with the upright post is provided with a diagonal bracing lengthening device. The mountain area is fully utilized through the multi-span frame to meet the installation quantity requirement of the photovoltaic panels. The height of the upright post is adjusted through the upright post lengthening device, and the length of the inclined support is matched with the height of the upright post through the inclined support lengthening device, so that the angle of the photovoltaic panel is maintained and adapted to relief of topography.

Description

Fixed bolster is used to slope topography that north-south was arranged to long row

Technical Field

The utility model belongs to the technical field of photovoltaic mounting brackets, and particularly relates to a fixing bracket for slope terrains, which is arranged in a north-south direction long row.

Background

The mountain region is complicated because of east-west topography condition, and the difference in height is very big, consequently arranges according to conventional east-west, simultaneously because current photovoltaic fixed bolster is single structure of striding, arranges along north-south direction and not only can't satisfy the installation quantity requirement of photovoltaic board, can't adjust in order to adapt to the function that topography was fluctuated to can't satisfy the fixed angle requirement of photovoltaic board.

Disclosure of Invention

The utility model aims to provide a fixing bracket for slope terrains, which is arranged in a north-south direction long row, and solves the technical problems in the prior art.

Therefore, the technical scheme provided by the utility model is as follows:

the utility model provides a fixed bolster for slope topography that north-south was arranged to long row, includes multispan frame and purlin, the purlin is installed on multispan frame, multispan frame can be according to the topography fluctuation and carry out the height adjustment, multispan frame installs on the basis, there is pre-buried steel pipe on the basis.

The multi-span frame comprises a diagonal beam and a plurality of upright posts arranged along a slope, wherein the upright posts are positioned on the same straight line, the diagonal beam is connected with the upright posts, extends along the straight line where the upright posts are positioned and is parallel to the slope, diagonal braces are arranged between the diagonal beam and the upright posts, and two diagonal braces are arranged between two adjacent upright posts and are respectively a diagonal brace I and a diagonal brace II;

the upright post is inserted into the embedded steel pipe to be connected with the foundation, an upright post lengthening device is arranged on the upright post arranged on the undulating topography, and an inclined strut lengthening device is arranged on an inclined strut connected with the upright post.

The upright posts at two ends are provided with an upright post connecting piece I, the upright post in the middle is provided with an upright post connecting piece II, one upright post connecting piece I is connected with an inclined strut, and the left and right sides of the upright post connecting piece II are respectively connected with the inclined strut I and the inclined strut II.

The upright post lengthening device comprises an upper connecting steel pipe and a lower connecting steel pipe, wherein the upper part of the lower connecting steel pipe is inserted into the upper connecting steel pipe and fixedly connected with the upper connecting steel pipe, the upper part of the upper connecting steel pipe is provided with a first through hole, and the lower part of the lower connecting steel pipe is provided with a plurality of first adjusting holes;

the lower part of the upright post is provided with a first bolt hole, the upright post is inserted into the upper connecting steel pipe, and the first bolt hole is connected with the first through hole through a first through bolt after being aligned; and the embedded steel pipe is provided with a second bolt hole, and the second bolt hole is connected with the first adjusting hole through a second through bolt after being aligned.

The diagonal bracing lengthening device comprises a connecting piece and an adjusting piece, wherein a plurality of second adjusting holes are formed in the lower portion of the connecting piece, second through holes are formed in the upper portion of the connecting piece, and third through holes and fourth through holes are formed in the upper portion and the lower portion of the adjusting piece respectively;

the lower part of the adjusting piece is connected with the upright post, the upper part of the adjusting piece is inserted into the connecting piece, the second adjusting hole is connected with the third through hole through the third through bolt, the diagonal bracing is inserted into the connecting piece, the lower part of the diagonal bracing is provided with the connecting hole, and the connecting hole is connected with the fourth through bolt after the second through hole is aligned.

The first upright post connecting piece is of a hoop structure and comprises a first half hoop sheet and a second half hoop sheet, a hoop connecting hole is formed in a uniform side mounting lug of the first half hoop sheet and the second half hoop sheet, and a hoop connecting hole and a diagonal bracing connecting hole are formed in a mounting lug on the other side;

the stand column connecting piece is sleeved on the stand column and is fixed on the stand column through anchor ear connecting holes on the mounting lugs on the two sides of the five opposite-penetrating bolts, connecting holes are formed in the diagonal bracing, the diagonal bracing is inserted between the two mounting lugs, and the diagonal bracing connecting holes are connected with the connecting holes through the six opposite-penetrating bolts after being aligned.

The second stand column connecting piece is of a hoop structure, the second stand column connecting piece comprises a third half hoop piece and a fourth half hoop piece, and hoop connecting holes and diagonal bracing connecting holes are symmetrically formed in mounting lugs on two sides of the third half hoop piece and the fourth half hoop piece.

The beneficial effects of the utility model are as follows:

the fixing support for the slope terrains is arranged in the north-south direction in a long row, and the mountain area is fully utilized through the multi-span frame to meet the installation quantity requirement of the photovoltaic panels. The height of the upright post is adjusted through the upright post lengthening device, and the length of the inclined support is matched with the height of the upright post through the inclined support lengthening device, so that the angle of the photovoltaic panel is maintained and adapted to relief of topography.

The utility model solves the problem that the fixed support cannot be implemented according to the conventional east-west arrangement because of large east-west height difference in the terrain, considers the problem of terrain fluctuation at individual upright posts of the multi-span frame section, and can respectively extend the upright posts and the inclined struts of the standard section through the upright post lengthening device and the inclined strut lengthening device on the premise of not changing the original design structure and the foundation (the length of the upright posts and the inclined struts, the basic size, the burial depth and the like), thereby realizing the functions of height adjustment and terrain adaptation.

Drawings

FIG. 1 is a schematic diagram of one embodiment of the present utility model;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a schematic view of the connection of the columns and diagonal braces at the relief of the terrain;

FIG. 4 is a schematic structural view of one embodiment of a diagonal beam connector;

FIG. 5 is a top view of FIG. 4;

FIG. 6 is a schematic structural view of one embodiment of a first column connector;

fig. 7 is a front view of fig. 6;

FIG. 8 is a schematic structural view of an embodiment of a second stud connector;

FIG. 9 is a schematic structural view of an embodiment of a column extension apparatus;

FIG. 10 is a schematic structural view of an embodiment of an adjustment member;

FIG. 11 is a schematic structural view of an embodiment of a connector.

In the figure: 1. purlin; 2. a sloping beam; 3. a diagonal beam connector; 4. a column; 5. a first upright post connecting piece; 6. a first diagonal brace; 7. a second diagonal brace; 8. a second upright post connecting piece; 9. a diagonal bracing lengthening device; 10. an adjusting member; 11. a connecting piece; 12. embedding a steel pipe; 13. an adjusting hole I; 14. an adjusting hole II; 15. connecting steel pipes on the upper part; 16. the lower connecting steel pipe; 17. a first oppositely penetrating bolt; 18. a second through bolt; 19. a third through bolt; 20. a fourth through bolt; 21. a photovoltaic module; 22. fifth, a bolt is penetrated in a butt-joint way; 23. and six bolts are penetrated oppositely.

Detailed Description

Further advantages and effects of the present utility model will become apparent to those skilled in the art from the disclosure of the present specification, by describing the embodiments of the present utility model with specific examples.

The exemplary embodiments of the present utility model will now be described with reference to the accompanying drawings, however, the present utility model may be embodied in many different forms and is not limited to the examples described herein, which are provided to fully and completely disclose the present utility model and fully convey the scope of the utility model to those skilled in the art. The terminology used in the exemplary embodiments illustrated in the accompanying drawings is not intended to be limiting of the utility model. In the drawings, like elements/components are referred to by like reference numerals.

Unless otherwise indicated, terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art. In addition, it will be understood that terms defined in commonly used dictionaries should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and will not be interpreted in an idealized or overly formal sense.

Example 1

The embodiment provides a fixing support for slope terrains in north-south long row arrangement, which comprises a multi-span frame and purlines 1, wherein the purlines 1 are arranged on the multi-span frame, the multi-span frame can be adjusted in height according to the fluctuation of terrains, the multi-span frame is arranged on a foundation, and embedded steel pipes 12 are arranged on the foundation.

According to the fixing support for the slope terrains with the north-south long row arrangement, the requirement on the installation quantity of the photovoltaic panels is met by fully utilizing the mountain areas through the multi-span frame, the multi-row arrangement of the photovoltaic modules 21 along the north-south slope is realized, and the problem that the fixing support cannot be implemented according to the conventional east-west arrangement due to complex east-west terrains is avoided; the multi-span frame can realize height adjustment according to the relief of the terrain.

Example 2

On the basis of the embodiment 1, the embodiment provides a fixing support for slope terrains, which is arranged in a north-south long row, wherein the multi-span frame comprises a diagonal beam 2 and a plurality of upright posts 4 arranged along a slope, the upright posts 4 are positioned on the same straight line, the diagonal beam 2 is connected with the upright posts 4 and extends along the straight line of the upright posts 4 and is parallel to the slope, diagonal braces are arranged between the diagonal beam 2 and the upright posts 4, and two diagonal braces, namely a diagonal brace I6 and a diagonal brace II 7, are respectively arranged between two adjacent upright posts 4;

the upright post 4 is inserted into the embedded steel pipe 12 to be connected with a foundation, an upright post 4 lengthening device is arranged on the upright post 4 arranged on the undulating terrain, and an inclined strut lengthening device 9 is arranged on an inclined strut connected with the upright post 4.

As shown in figure 1, when the terrain gradient of the bottoms of the upright posts 4 corresponding to the cross section of the multi-span frame of the fixed bracket is consistent, the standard frame section consisting of the upright posts 4, the diagonal braces and the diagonal beams 2 can be directly used; as shown in fig. 2, when the individual upright post 4 is provided with relief, the upright post 4 and the diagonal bracing with standard sections can be respectively extended by the upright post 4 lengthening device and the diagonal bracing lengthening device 9 on the basis of not changing the original structural member (the length of the upright post 4 and the diagonal bracing, the basic size, the burial depth and the like) of the original design, so that the functions of height adjustment and terrain adaptation are realized.

Example 3

On the basis of the embodiment 2, the embodiment provides a fixing support for slope terrains, which is arranged in a north-south direction long row, wherein a first upright connecting piece 5 is arranged on upright posts 4 at two ends, a second upright connecting piece 8 is arranged on the upright post 4 in the middle, the first upright connecting piece 5 is connected with an inclined strut, and a first inclined strut 6 and a second inclined strut 7 are respectively connected with the left side and the right side of the second upright connecting piece 8.

As shown in fig. 1, the first upright connecting piece 5 can be used for connecting one side of the diagonal brace with the upright 4, and the second upright connecting piece 8 can be used for connecting two side diagonal braces with the upright 4, so that two diagonal braces are formed between two adjacent upright 4, and the stress requirement of the multi-span frame is met.

Example 4

On the basis of embodiment 2, the embodiment provides a fixing support for slope terrains, which is arranged in a north-south long row, as shown in fig. 3, the column 4 lengthening device comprises an upper connecting steel pipe 15 and a lower connecting steel pipe 16, the upper part of the lower connecting steel pipe 16 is inserted into the upper connecting steel pipe 15 and fixedly connected, the upper part of the upper connecting steel pipe 15 is provided with a first through hole, and the lower part of the lower connecting steel pipe 16 is provided with a plurality of first adjusting holes 13;

the lower part of the upright post 4 is provided with a first bolt hole, the upright post 4 is inserted into the upper connecting steel pipe 15, and the first bolt hole is aligned with the first through hole and then connected through a first through bolt 17; and a second bolt hole is formed in the embedded steel pipe 12, and the second bolt hole is aligned with the first adjusting hole 13 and then connected with the first adjusting hole through a second opposite-penetrating bolt 18.

As shown in fig. 9, the diameter of the upper connecting steel pipe 15 of the column 4 lengthening device is larger than that of the lower connecting steel pipe 16, the section of the lower connecting steel pipe 16 is consistent with that of the column 4, and the lower connecting steel pipe 16 is connected with a foundation by inserting an embedded steel pipe 12 instead of the column 4. During installation, the second bolt hole and one of the first adjusting holes 13 are aligned to be adjusted to a proper height according to the relief of the topography and then connected through the second opposite-penetrating bolt 18.

Example 5

On the basis of embodiment 2, this embodiment provides a fixing support for slope terrains arranged in long rows in the north-south direction, as shown in fig. 3, the diagonal bracing lengthening device 9 includes a connecting piece 11 and an adjusting piece 10, a plurality of second adjusting holes 14 are formed in the lower portion of the connecting piece 11, second through holes are formed in the upper portion of the connecting piece 11, and third through holes and fourth through holes are formed in the upper portion and the lower portion of the adjusting piece 10 respectively;

the lower part of the adjusting piece 10 is connected with the upright post 4, the upper part of the adjusting piece 10 is inserted into the connecting piece 11, the second adjusting hole 14 is aligned with the third through hole and then connected with the third through hole through the fourth through bolt 19, the diagonal bracing is inserted into the connecting piece 11, the lower part of the diagonal bracing is provided with a connecting hole, and the connecting hole is aligned with the second through hole and then connected with the fourth through bolt 20.

The adjusting member 10 is shown in fig. 10, the connecting member 11 is shown in fig. 11, one end of the connecting member 11 is inserted into the diagonal brace, the other end is inserted into the adjusting member 10, after the position is adjusted according to the height of the post 4 after adjustment, the third through hole is aligned with one of the second adjusting holes 14, and finally the third through hole is connected through the third through bolt 19. The other end of the diagonal bracing is connected with the lower end face of the diagonal bracing 2 through a diagonal bracing connecting piece 113, the diagonal bracing connecting piece 113 is shown in fig. 4 and 5, the diagonal bracing connecting piece 113 comprises a bottom plate and side plates symmetrically arranged on two sides of the bottom plate, bolt holes are formed in the bottom plate and are installed at the bottom end of the diagonal bracing 2 through bolts, holes are formed in the tops of the side edges, connecting holes are formed in the upper portion of the diagonal bracing, the upper portion of the diagonal bracing is inserted between the two side plates, and the diagonal bracing is connected after being inserted through the bolts.

Example 6

On the basis of embodiment 3, this embodiment provides a fixing support for slope topography arranged in a north-south direction long row, as shown in fig. 6 and 7, the first upright connector 5 is in a hoop structure, the first upright connector 5 comprises a first half hoop sheet and a second half hoop sheet, a hoop connecting hole is formed in a uniform side mounting lug of the first half hoop sheet and the second half hoop sheet, and a hoop connecting hole and a diagonal bracing connecting hole are formed in a mounting lug on the other side;

the first upright post connecting piece 5 is sleeved on the upright post 4 and is fixed on the upright post 4 through the anchor ear connecting holes on the mounting lugs on the two sides of the upright post through the opposite-penetrating bolts five 22, the diagonal bracing is provided with connecting holes, the diagonal bracing is inserted between the two mounting lugs, and the diagonal bracing connecting holes are connected with the connecting holes through the opposite-penetrating bolts six 23 after being aligned.

Firstly, the two sides of the upright post 4 are held by the first half hoop sheet and the second half hoop sheet and then are connected by the fifth through bolt, and then are inserted between the two mounting lugs by the diagonal bracing and are connected by the sixth through bolt 23.

Example 7

On the basis of embodiment 3, this embodiment provides a fixed bolster for slope topography that north-south was arranged to long row, as shown in fig. 8, stand connecting piece two 8 is the staple bolt structure, stand connecting piece two 8 includes half staple bolt piece three and half staple bolt piece four, a staple bolt connecting hole and a bracing connecting hole have been seted up to symmetry on the equal both sides installation ear of half staple bolt piece three and half staple bolt piece four.

The stand column connecting piece II 8 is different from the stand column connecting piece I5 in that inclined strut connecting points (inclined strut connecting holes) are arranged on mounting lugs on two sides of the stand column connecting piece II 8, so that double inclined strut arrangement between two adjacent stand columns 4 can be realized.

During construction, the foundation of each upright post 4 and the embedded steel pipe 12 are constructed first, and when the foundation strength meets the bracket installation conditions, the upright posts 4, the inclined beams 2 and the inclined struts are installed in sequence to form a transverse frame, and each truss frame is assembled in the mode. The upper longitudinal purline 1 is arranged above the oblique beam 2 according to the size and the interval of the design drawing, and the installation of the bracket structure is completed, so that the installation work of the photovoltaic module 21 on the plane of the purline 1 can be carried out. When the topography of individual upright post 4 is fluctuated, the problem of unmatched length of the upright post 4 and the diagonal bracing can be caused, and the upright post 4 and the diagonal bracing with standard section can be respectively extended through the upright post 4 lengthening device and the diagonal bracing lengthening device 9 on the premise of not changing the original design structure and foundation (the length of the upright post 4 and the diagonal bracing, the basic size, the burial depth and the like), so that the functions of height adjustment and topography adaptation are realized.

In the above embodiments, the purline 1 is C-shaped steel in cross section, Q420 is installed above the fixed bracket oblique beam 2, and is longitudinally arranged along the fixed bracket. The photovoltaic module 21 plates are arranged on the purlines 1, so that the distance between the purlines 1 is matched with the size of the photovoltaic module 21 plates. The cross section of the inclined beam 2 is ≡section steel, the material is Q420, and the inclined beam 2 and the lower upright posts 4 are fixed through inclined beam connecting pieces 113 to form a transverse frame. Considering that the bracket is of a multi-span structure, the inclined beam 2 is longer and can be segmented. The cross section of the diagonal beam connecting piece 113 is U-shaped, the material is Q235, and the diagonal beam 2 and the connecting pieces 11 of the upright posts 4 are fixed to form a multi-span transverse frame cross section, and the multi-span transverse frame cross section is also used for connecting the diagonal beam 2 with a diagonal brace. The section of the upright post 4 is a goodsteel pipe, the material is Q420, the upper end of the upright post is connected with the inclined beam 2 through the inclined beam connecting piece 113, and the lower end of the upright post is inserted into the embedded steel pipe 12 and then is fixed by a butt bolt. The material of the first upright post connecting piece 5 and the second upright post connecting piece 8 is Q235. The cross sections of the first inclined strut 6 and the second inclined strut 7 are both ≡shaped steel, and the material is Q420. The connecting piece 11, the adjusting piece 10 and the column 4 lengthening device are all made of Q420.

The foregoing examples are merely illustrative of the present utility model and are not intended to limit the scope of the present utility model, and all designs that are the same or similar to the present utility model are within the scope of the present utility model.

Claims (7)

1. The utility model provides a fixed bolster is used to slope topography that north-south was arranged to long row which characterized in that: the novel multi-span steel pipe foundation comprises a multi-span frame and purlines, wherein the purlines are arranged on the multi-span frame, the multi-span frame can be adjusted in height according to relief of topography, the multi-span frame is arranged on the foundation, and embedded steel pipes are arranged on the foundation.

2. The fixed support for slope terrains arranged in long north-south rows according to claim 1, wherein: the multi-span frame comprises a diagonal beam and a plurality of upright posts arranged along a slope, wherein the upright posts are positioned on the same straight line, the diagonal beam is connected with the upright posts, extends along the straight line where the upright posts are positioned and is parallel to the slope, diagonal braces are arranged between the diagonal beam and the upright posts, and two diagonal braces are arranged between two adjacent upright posts and are respectively a diagonal brace I and a diagonal brace II;

the upright post is inserted into the embedded steel pipe to be connected with the foundation, an upright post lengthening device is arranged on the upright post arranged on the undulating topography, and an inclined strut lengthening device is arranged on an inclined strut connected with the upright post.

3. A fixed support for sloping terrains arranged in long north-south rows according to claim 2, characterized in that: the upright posts at two ends are provided with an upright post connecting piece I, the upright post in the middle is provided with an upright post connecting piece II, one upright post connecting piece I is connected with an inclined strut, and the left and right sides of the upright post connecting piece II are respectively connected with the inclined strut I and the inclined strut II.

4. A fixed support for sloping terrains arranged in long north-south rows according to claim 2, characterized in that: the upright post lengthening device comprises an upper connecting steel pipe and a lower connecting steel pipe, wherein the upper part of the lower connecting steel pipe is inserted into the upper connecting steel pipe and fixedly connected with the upper connecting steel pipe, the upper part of the upper connecting steel pipe is provided with a first through hole, and the lower part of the lower connecting steel pipe is provided with a plurality of first adjusting holes;

the lower part of the upright post is provided with a first bolt hole, the upright post is inserted into the upper connecting steel pipe, and the first bolt hole is connected with the first through hole through a first through bolt after being aligned; and the embedded steel pipe is provided with a second bolt hole, and the second bolt hole is connected with the first adjusting hole through a second through bolt after being aligned.

5. A fixed support for sloping terrains arranged in long north-south rows according to claim 2, characterized in that: the diagonal bracing lengthening device comprises a connecting piece and an adjusting piece, wherein a plurality of second adjusting holes are formed in the lower portion of the connecting piece, second through holes are formed in the upper portion of the connecting piece, and third through holes and fourth through holes are formed in the upper portion and the lower portion of the adjusting piece respectively;

the lower part of the adjusting piece is connected with the upright post, the upper part of the adjusting piece is inserted into the connecting piece, the second adjusting hole is connected with the third through hole through the third through bolt, the diagonal bracing is inserted into the connecting piece, the lower part of the diagonal bracing is provided with the connecting hole, and the connecting hole is connected with the fourth through bolt after the second through hole is aligned.

6. A fixed support for sloping terrains arranged in long north-south rows according to claim 3, characterized in that: the first upright post connecting piece is of a hoop structure and comprises a first half hoop sheet and a second half hoop sheet, a hoop connecting hole is formed in a uniform side mounting lug of the first half hoop sheet and the second half hoop sheet, and a hoop connecting hole and a diagonal bracing connecting hole are formed in a mounting lug on the other side;

the stand column connecting piece is sleeved on the stand column and is fixed on the stand column through anchor ear connecting holes on the mounting lugs on the two sides of the five opposite-penetrating bolts, connecting holes are formed in the diagonal bracing, the diagonal bracing is inserted between the two mounting lugs, and the diagonal bracing connecting holes are connected with the connecting holes through the six opposite-penetrating bolts after being aligned.

7. A fixed support for sloping terrains arranged in long north-south rows according to claim 3, characterized in that: the second stand column connecting piece is of a hoop structure, the second stand column connecting piece comprises a third half hoop piece and a fourth half hoop piece, and hoop connecting holes and diagonal bracing connecting holes are symmetrically formed in mounting lugs on two sides of the third half hoop piece and the fourth half hoop piece.