CN223334605U - Double flexible photovoltaic support of prefabricated tubular pile - Google Patents

Abstract

The utility model relates to the technical field of double-row flexible photovoltaic supports, and discloses a prefabricated pipe pile double-row flexible photovoltaic support, comprising two groups of end support assemblies and at least one group of middle support assemblies arranged between the two groups of end support assemblies, the end support assemblies and the middle support assemblies jointly support and fix four steel strands above them, and two rows of photovoltaic panel assemblies are fixedly installed on the four steel strands; this solution can arrange photovoltaic assemblies in double rows, and can arrange photovoltaic assemblies with high density in a limited environment, thereby improving space utilization; this solution designs a single column per span, the top of the column is connected to the middle of the middle oblique beam, and the two ends of the middle oblique beam can pull and support the two steel strands. Compared with the technical solution of using two columns in the existing technology, this solution has the advantages of less steel consumption and less foundation.

Description

Double flexible photovoltaic support of prefabricated tubular pile

Technical Field

The utility model relates to the technical field of double-row flexible photovoltaic brackets, in particular to a prefabricated pipe pile double-row flexible photovoltaic bracket.

Background

The flexible photovoltaic panel support is used for outdoor installation of the photovoltaic panel assembly, and further the photovoltaic panel assembly can be effectively utilized, and by means of the advantage of flexible support, the performance of external impact resistance is more superior to that of the rigid support, the double-row flexible support can be used for arranging more dense photovoltaic panel assemblies in a limited space, so that the light energy utilization efficiency is improved, and the adaptability to the terrain is higher.

The existing double-row flexible support is provided with two upright posts in the middle of each span, the tops of the upright posts are connected by using a through long steel beam, the overall steel consumption cost of the support is high, a plurality of ground anchors are used in the middle of each span, and the foundation cost is high.

For example, the Chinese patent with the publication number of CN217216416U discloses a steel rope photovoltaic bracket, which comprises a photovoltaic bracket main body, wherein the photovoltaic bracket main body comprises a column pile device and an anchor pile pulling device, an oblique beam is arranged on the column pile device, an anchor rope is connected between the oblique beam and the anchor pile pulling device, a rigging is connected at the position of the anchor rope, a rigging connecting plate is arranged on the rigging, the rigging connecting plate is welded at the upper end position of the oblique beam, four steel ropes are connected with the rigging, a first battery plate and a second battery plate are arranged on the four steel ropes, and a wind discharging groove is arranged between the first battery plate and the second battery plate. The battery plate is arranged in double rows, the wind resistance intensity can be improved, the wind discharging grooves are formed in the middle of the battery plate at intervals to relieve wind pressure, three vertical supports and two stretching supports are respectively arranged on the steel cable, the stability is improved, the battery plate clamp is convenient and better to combine and fix, and the middle steel cable adapter is convenient to connect the vertical supports and the positions between the vertical supports, so that the battery plate is simple and practical.

The technical scheme of the photovoltaic panel assembly arranged in double rows is provided, but the technical problems of high steel consumption and multiple foundations of the existing double-row flexible support exist, so that the technical problem existing in the prior art is solved by the double-row flexible photovoltaic support with the prefabricated tubular piles.

Disclosure of utility model

The utility model aims to provide a prefabricated tubular pile double-row flexible photovoltaic bracket, which aims to solve the defects in the prior art.

The technical scheme includes that the double-row flexible photovoltaic support for the prefabricated pipe piles comprises two groups of end supporting assemblies and at least one group of middle supporting assemblies arranged between the two groups of end supporting assemblies, four steel strands are supported and fixed above the end supporting assemblies and the middle supporting assemblies together, two rows of photovoltaic panel assemblies are fixedly installed on the four steel strands, the end supporting assemblies comprise two PHC end posts fixedly connected with the ground, end oblique beams are fixedly installed at the top ends of the PHC end posts, the end oblique beams are inclined to the horizontal plane, two steel strands are fixedly connected to the two ends of the top surface of each end oblique beam respectively, the free ends of the steel strands are fixedly connected with the end oblique beams in the other group of end supporting assemblies, and a row of photovoltaic panel assemblies are supported and fixed together on the two steel strands fixedly connected with one end oblique beam together.

The middle support assembly comprises a PHC middle column fixedly connected with the ground and a middle oblique beam fixedly installed at the top end of the PHC middle column, the top surface of the middle oblique beam is in limiting connection with the steel strand, two ends of the middle oblique beam are respectively hinged with a middle supporting rod, and the free end of the middle supporting rod is fixedly connected with the side wall of the PHC middle column through a second hoop.

The PHC center pillar is connected and fixed with PHC center pillars in the adjacent photovoltaic brackets by utilizing a first stabilizing rod, two ends of the first stabilizing rod are respectively connected and fixed with second anchor clamps in the two groups of photovoltaic brackets, a third anchor clamp is fixedly arranged at the bottom of the side wall of the PHC center pillar, one side of the third anchor clamp, which is close to the adjacent photovoltaic brackets, is hinged with the second stabilizing rod, the free end of the second stabilizing rod is connected and fixed with the second anchor clamp in the adjacent photovoltaic brackets, so that the adjacent photovoltaic brackets can mutually support, the PHC center pillar, the first stabilizing rod and the second stabilizing rod form a stable triangle structure, and the stability of the photovoltaic brackets is improved.

The photovoltaic support further comprises an anti-wind assembly, the anti-wind assembly comprises a stabilizing support which is simultaneously in limiting connection with four steel strands, at least one supporting rod is fixedly installed below the stabilizing support in a limiting connection mode through a cable clamp, the bottom ends of all the supporting rods are in limiting connection with the same stabilizing cable through the cable clamp, the adjacent photovoltaic supports share the stabilizing cable, the adjacent photovoltaic supports can mutually support each other, stability is improved, two PHC stabilizing piles are fixedly connected to two ends of the stabilizing cable respectively, the PHC stabilizing piles straighten the stabilizing cable, and the bottom ends of the PHC stabilizing piles are fixedly connected with the ground.

As a preferable scheme, the top surface of the middle inclined beam is in limit connection with the steel strand by using a locking clamp.

As a preferable scheme, the two ends of the end inclined beam are fixedly connected with first stay cables, one end, far away from the end inclined beam, of the first stay cables is fixedly connected with PHC end inclined pull piles, and the PHC end inclined pull piles are fixedly connected with the ground.

As a preferable scheme, two ends of the end inclined beam are respectively hinged with an end stay bar, and the free end of the end stay bar is fixedly connected with the side wall of the PHC end column.

As a preferable scheme, the free end of the end stay bar is fixedly connected with the side wall of the PHC end post by using a first hoop.

Preferably, the two PHC end posts have different lengths.

As the preferable scheme, PHC stabilizes stake top end fixedly connected with second suspension cable, second suspension cable keeps away from stable cable one end and is connected with PHC and stabilize oblique stretching stake, PHC stabilizes oblique stretching stake and ground connection and fixes, improves the stability degree of anti-wind subassembly.

The beneficial effects are that:

The double-row arrangement of the photovoltaic modules can be carried out, the high-concentration photovoltaic module arrangement can be carried out in a limited environment, and the space utilization rate is improved;

The middle support component with stable structure is designed in the scheme, the PHC middle columns in at least two adjacent rows of supports can be connected and fixed by utilizing the first stable rod and the second stable rod, so that the adjacent photovoltaic supports can be mutually supported, the PHC middle columns, the first stable rod and the second stable rod form a stable triangular structure, and the stability of the photovoltaic supports is improved;

This scheme is striden and is designed single stand, and the stand top is connected with middle part sloping middle part, and middle part sloping both ends can pull and support two steel strands, compare prior art and adopt the technical scheme of two stands, and this scheme has the advantage that the steel consumption is few, and the basis is few.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings required for the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments described in the present utility model, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic axial view of a bracket according to the present utility model;

FIG. 2 is an isometric view of an end support assembly of the present utility model;

FIG. 3 is a left side view of the middle support assembly of the present utility model;

FIG. 4 is an isometric view of an anti-wind assembly of the present utility model;

fig. 5 is a right side view of the end support assembly of the present utility model.

Reference numerals illustrate:

100. Steel strand wires, 101, PHC end post, 102, end oblique beam, 103, end stay bar, 104, first anchor ear, 105, first stay cable, 106, PHC end oblique pull pile, 201, PHC middle post, 202, middle oblique beam, 203, middle stay bar, 204, second anchor ear, 205, first stabilizing rod, 301, third anchor ear, 302, second stabilizing rod, 401, PHC stabilizing pile, 402, PHC stabilizing oblique pull pile, 403, second stay cable, 404, stabilizing support, 405, stabilizing cable, 501, photovoltaic panel assembly.

Detailed Description

In order to make the technical scheme of the present utility model better understood by those skilled in the art, the present utility model will be further described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 5, the double-row flexible photovoltaic support for the prefabricated pipe pile provided by the embodiment of the utility model comprises two groups of end support assemblies and at least one group of middle support assemblies arranged between the two groups of end support assemblies, wherein four steel strands 100 are supported and fixed on the upper parts of the end support assemblies and the middle support assemblies together, two rows of photovoltaic panel assemblies 501 are fixedly arranged on the four steel strands 100, each end support assembly comprises two PHC end posts 101 fixedly connected with the ground, each PHC end post 101 is fixedly provided with an end inclined beam 102, each end inclined beam 102 is inclined to the horizontal plane, two steel strands 100 are fixedly connected to the two ends of the top surface of each end inclined beam 102 respectively, the free ends of the steel strands 100 are fixedly connected with the end inclined beams 102 in the other group of end support assemblies, one row of photovoltaic panel assemblies 501 are supported and fixed on the two steel strands 100 which are fixedly connected with one end inclined beam 102 together, and the two end inclined beams 102 are arranged in one group of end support assemblies so that the double-row photovoltaic panel assemblies 501 can be arranged and installed.

The middle support assembly comprises a PHC middle column 201 fixedly connected with the ground and a middle inclined beam 202 fixedly installed at the top end of the PHC middle column 201, the top surface of the middle inclined beam 202 is in limit connection with the steel strand 100, two ends of the middle inclined beam 202 are respectively hinged with a middle stay rod 203, and the free end of the middle stay rod 203 is fixedly connected with the side wall of the PHC middle column 201 by a second hoop 204.

The PHC center pillar 201 is connected and fixed with PHC center pillar 201 in the adjacent photovoltaic support through the first stabilizing rod 205, two ends of the first stabilizing rod 205 are respectively connected and fixed with the second anchor clamps 204 in the two groups of photovoltaic supports, a third anchor clamp 301 is fixedly arranged at the bottom of the side wall of the PHC center pillar 201, one side, close to the adjacent photovoltaic support, of the third anchor clamp 301 is hinged with a second stabilizing rod 302, the free end of the second stabilizing rod 302 is connected and fixed with the second anchor clamp 204 in the adjacent photovoltaic support, so that the adjacent photovoltaic supports can be mutually supported, and the PHC center pillar 201, the first stabilizing rod 205 and the second stabilizing rod 302 form a stable triangular structure, so that the stability of the photovoltaic support is improved.

The photovoltaic support further comprises an anti-wind assembly, the anti-wind assembly comprises a stabilizing support 404 which is simultaneously in limiting connection with four steel strands 100, the limiting connection mode is that cable clamps are adopted for connection, at least one support rod is fixedly arranged below the stabilizing support 404, the bottom ends of all the support rods are in limiting connection with the same stabilizing cable 405 through the cable clamps, the adjacent photovoltaic supports share the stabilizing cable 405, the adjacent photovoltaic supports can mutually support, stability is improved, PHC stabilizing piles 401 are fixedly connected to the two ends of the stabilizing cable 405 respectively, the PHC stabilizing piles 401 straighten the stabilizing cable 405, and the bottom ends of the PHC stabilizing piles 401 are fixedly connected with the ground.

The top surface of the middle inclined beam 202 is in limit connection with the steel strand 100 by using a locking clamp.

The two ends of the end inclined beam 102 are fixedly connected with first stay cables 105, one end, far away from the end inclined beam 102, of the first stay cables 105 is fixedly connected with PHC end cable-stayed piles 106, and the PHC end cable-stayed piles 106 are fixedly connected with the ground.

Two ends of the end inclined beam 102 are respectively hinged with an end stay bar 103, and the free end of the end stay bar 103 is fixedly connected with the side wall of the PHC end column 101.

The free end of the end stay bar 103 is fixedly connected with the side wall of the PHC end column 101 by a first hoop 104.

The two PHC end posts 101 are different in length.

The PHC stabilizing pile 401 top fixedly connected with second stay cable 403, the second stay cable 403 keeps away from stabilizing cable 405 one end and is connected fixedly with PHC stabilizing cable-stayed pile 402, PHC stabilizing cable-stayed pile 402 is connected fixedly with ground, improves the stability of anti-wind subassembly.

While certain exemplary embodiments of the present utility model have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the utility model, which is defined by the appended claims.

Claims (8)

1. The double-row flexible photovoltaic bracket for the prefabricated pipe piles is characterized by comprising two groups of end supporting components and at least one group of middle supporting components arranged between the two groups of end supporting components, wherein four steel strands (100) are fixedly supported above the end supporting components and the middle supporting components together, two rows of photovoltaic panel components (501) are fixedly arranged on the four steel strands (100), each end supporting component comprises two PHC end posts (101) fixedly connected with the ground, an end inclined beam (102) is fixedly arranged at the top end of each PHC end post (101), each end inclined beam (102) is inclined to the horizontal plane, one steel strand (100) is fixedly connected to each end of the top surface of each end inclined beam (102), and the free ends of the steel strands (100) are fixedly connected with the end inclined beams (102) in the other groups of end supporting components together;

The middle support assembly comprises a PHC middle column (201) fixedly connected with the ground and a middle inclined beam (202) fixedly installed at the top end of the PHC middle column (201), the top surface of the middle inclined beam (202) is in limit connection with the steel strand wires (100), two ends of the middle inclined beam (202) are respectively hinged with a middle stay bar (203), and the free end of the middle stay bar (203) is fixedly connected with the side wall of the PHC middle column (201) by a second hoop (204);

The PHC middle column (201) is connected and fixed with PHC middle columns (201) in adjacent photovoltaic supports through a first stabilizing rod (205), two ends of the first stabilizing rod (205) are respectively connected and fixed with second anchor clamps (204) in two groups of photovoltaic supports, a third anchor clamp (301) is fixedly arranged at the bottom of the side wall of the PHC middle column (201), a second stabilizing rod (302) is hinged to one side of the third anchor clamp (301) close to the adjacent photovoltaic supports, and the free end of the second stabilizing rod (302) is connected and fixed with the second anchor clamp (204) in the adjacent photovoltaic supports.

2. The prefabricated pipe pile double-row flexible photovoltaic support is characterized by further comprising an anti-wind assembly, wherein the anti-wind assembly comprises stabilizing supports (404) which are simultaneously in limiting connection with four steel strands (100), the limiting connection mode is that connection is achieved through cable clamps, at least one supporting rod is fixedly arranged below the stabilizing supports (404), the bottom ends of all the supporting rods are in limiting connection with the same stabilizing cable (405) through the cable clamps, the adjacent photovoltaic supports share the stabilizing cable (405) so that the adjacent photovoltaic supports can mutually support to improve stability, PHC stabilizing piles (401) are respectively connected and fixed to two ends of the stabilizing cable (405), the PHC stabilizing piles (401) straighten the stabilizing cable (405), and the bottom ends of the PHC stabilizing piles (401) are fixedly connected with the ground.

3. The double-row flexible photovoltaic support for prefabricated pipe piles, as claimed in claim 1, wherein the top surface of the middle inclined beam (202) is in limit connection with the steel stranded wires (100) through locking clips.

4. The double-row flexible photovoltaic support for the prefabricated pipe piles, which is characterized in that two ends of the end inclined beam (102) are fixedly connected with first stay cables (105), one end, far away from the end inclined beam (102), of each first stay cable (105) is fixedly connected with a PHC end inclined pile (106), and the PHC end inclined pile (106) is fixedly connected with the ground.

5. The double-row flexible photovoltaic support for prefabricated pipe piles, which is characterized in that two ends of each end inclined beam (102) are respectively hinged with an end supporting rod (103), and the free ends of the end supporting rods (103) are fixedly connected with the side wall of the PHC end column (101).

6. The double-row flexible photovoltaic support for prefabricated pipe piles, which is disclosed in claim 5, is characterized in that the free ends of the end stay bars (103) are fixedly connected with the side wall of the PHC end column (101) by using first anchor ears (104).

7. The double-row flexible photovoltaic support for prefabricated pipe piles according to claim 1, wherein the two PHC end posts (101) are different in length.

8. The double-row flexible photovoltaic support for the prefabricated pipe piles, as claimed in claim 2, is characterized in that a second stay cable (403) is fixedly connected to the top end of the PHC stabilizing pile (401), a PHC stabilizing inclined pulling pile (402) is fixedly connected to one end, away from the stabilizing cable (405), of the second stay cable (403), and the PHC stabilizing inclined pulling pile (402) is fixedly connected to the ground.