CN216390860U - Multidirectional supporting steel cable photovoltaic support - Google Patents

Abstract

The utility model provides a multi-azimuth supporting steel cable photovoltaic bracket, wherein the lower ends of a first steel beam, a second steel beam and a third steel beam are respectively provided with a plurality of stand columns, the first steel beam, the second steel beam and the third steel beam are respectively provided with a first main steel cable, a second main steel cable and an upward steel cable, the starting and stopping ends of the first steel cable, the second main steel cable and the upward steel cable are respectively connected with the first steel beam and the third steel beam through rigging and a steel cable adapter, a battery assembly is connected with the battery assembly through a battery combination clamp, the battery assembly is connected with the first main steel cable and the second main steel cable through the battery combination clamp, and the outer sides of the first steel beam and the third steel beam are respectively provided with a diagonal steel cable through the steel cable adapter and the rigging; the steel beam I and the steel beam II and the steel beam III comprise stay bar assemblies and/or four-direction steel cable assemblies, the stay bar assemblies can be used for connection according to geographic environments and climate factors, or the stay bar assemblies and the four-direction steel cable assemblies are connected in a combined mode, so that the influence of factors such as wind pressure and snow pressure is reduced, and the steel beam I and the steel beam II are widely applied to mountainous regions, plains, hills and other regions.

Description

Multidirectional supporting steel cable photovoltaic support

Technical Field

The utility model relates to the field of photovoltaic support equipment, in particular to a multi-azimuth supporting steel cable photovoltaic support.

Background

The photovoltaic bracket is used for supporting a battery panel in a solar photovoltaic power generation system. Traditional photovoltaic support is rigid support, generally includes stand and purlin, and photovoltaic module arranges on rigid purlin according to the array installation. The existing flexible photovoltaic support is characterized in that a steel strand is connected with a steel beam to form a flexible cable structure, and the distance between the steel beam and the steel beam is 8-60 m under the influence of stress, so that a worker refers to a supporting structure in greenhouse erection and installs a triangular support on the steel strand between the steel beam and the steel beam, but the triangular support can only be applied to plane support and cannot play a supporting role in long-distance photovoltaic support erection, namely, the triangular support cannot be used for a long distance, the construction cost is increased invisibly, and great potential safety hazards exist. And, influenced by adverse weather environment and geological conditions, the battery pack generates shake and high-frequency vibration, so that the battery pack is hidden and attenuated, and the safety of the steel cable photovoltaic power station system and the designed service life are difficult to guarantee.

Disclosure of Invention

In order to solve the problems, the utility model provides a multi-azimuth supporting steel cable photovoltaic bracket which is reasonable in structure and solves the problems.

The technical scheme of the utility model is as follows: the photovoltaic bracket comprises a four-direction steel cable component, a stay bar adapter, a clamping piece, a rigging, a steel cable adapter, a stay bar combined truss, a battery combined clamp, a four-direction stay cable adapter, a steel strand fixing pressing plate, a battery component, a first main steel cable, a second main steel cable, a pull-up steel cable, an upright post, a first steel beam, a second steel beam, a third steel beam and a diagonal steel cable; the lower ends of the first steel beam, the second steel beam and the third steel beam are provided with a plurality of stand columns, the number of the stand columns is at least three in each group, clamping pieces are arranged on two sides of the stand columns, the first steel beam, the second steel beam and the third steel beam are respectively provided with a first main steel cable, a second main steel cable and a pull-up steel cable, the first main steel cable and the pull-up steel cable are respectively positioned at the upper ends of the first steel beam, the second steel beam and the third steel beam, the second main steel cable is positioned at the lower ends of the first steel beam, the second steel beam and the third steel beam, the upper ends and the lower ends of the first steel beam, the third steel beam and the third steel beam are respectively and symmetrically provided with a plurality of steel cable transferring pieces, and the steel cable transferring pieces, the first steel beam and the third steel beam are fixed by bolts; the upper end and the lower end of a steel beam II are respectively provided with a plurality of steel strand fixing pressing plates, a first steel beam I and a third steel beam I are respectively the start-stop ends of the photovoltaic bracket, the second steel beam II is provided with a plurality of steel strands, the start-stop ends of a first steel cable, a second main steel cable and a pull-up steel cable are respectively connected with the first steel beam I and the third steel beam through rigging and steel cable connectors, and the first steel cable, the second main steel cable and the pull-up steel cable are respectively connected with the second steel beam through the steel strand fixing pressing plates; the battery assembly is connected with the battery assembly through a battery combined clamp, the battery assembly is connected with a first main steel cable and a second main steel cable through the battery combined clamp, and the outer sides of the first steel beam and the third steel beam are respectively provided with a diagonal steel cable through a steel cable adaptor and a rigging; a stay bar combination truss and/or a four-direction steel cable component are arranged between the first steel beam and the second steel beam and between the second steel beam and the third steel beam;

the brace rod combined truss comprises a plurality of vertical brace rods II, diagonal brace rods, a vertical brace rod I, a cross brace rod I and a cross brace rod II, one end of each vertical brace rod II is connected with the diagonal brace rod through a brace rod adapter, the other end of each vertical brace rod II is connected with the vertical brace rod I and the cross brace rod I through a brace rod adapter, one end of each diagonal brace rod is connected with the vertical brace rod I and the cross brace rod II through the brace rod adapter, one end of each cross brace rod is connected with the vertical brace rod II through the brace rod adapter, the diagonal brace rods are connected, one ends of the two crossed brace rods are connected with the two vertical brace rods, the first vertical brace rod and the first crossed brace rod through a four-direction inhaul cable adapter, one ends of the diagonal brace rods and the first vertical brace rod are connected with the second crossed brace rod through a brace rod adapter, one ends of the two crossed brace rods are connected with the second vertical brace rod and the first vertical brace rod through a brace rod adapter, one ends of the first crossed brace rods are connected with the second vertical brace rod and the diagonal brace rod through a brace rod adapter, and the diagonal brace rods are connected with the first vertical brace rod through a brace rod adapter; the number of the trusses of the stay bar combination truss is increased according to the span distance of the first steel beam, the second steel beam or the third steel beam;

the four-direction steel cable assembly comprises a first four-direction steel cable, a second four-direction steel cable, a third four-direction steel cable, a fourth four-direction steel cable, a rigging and a four-direction inhaul cable adaptor, wherein one end of the first four-direction steel cable, one end of the second four-direction steel cable, one end of the third four-direction steel cable and one end of the fourth four-direction steel cable are respectively connected with the clamping and fixing piece on the upright post through the rigging, and the other end of the first four-direction steel cable is connected with the four-direction inhaul cable adaptor through the rigging; the four-direction wire rope assembly includes but is not limited to four-direction wire ropes;

four directions cable adaptor includes right angle U-shaped spare one, arc end, azimuth hole, is equipped with the arc end on the right angle U-shaped spare one, and arc end upper end, lower extreme all are equipped with the hole, and arc end, hole on two right angle U-shaped spares are all corresponding each other, and a right angle U-shaped spare both sides all are equipped with the azimuth hole, and a right angle U-shaped spare both sides are equipped with the hole and install screw assembly.

Optionally, the pull-up steel cable sequentially passes through the stay bar adapters on the four-direction stay cable adapters or the stay bar combination truss.

Optionally, one end or two ends of the first main steel cable, the second main steel cable, the pull-up steel cable, the diagonal steel cable, the first four-direction steel cable, the second four-direction steel cable, the third four-direction steel cable and the fourth four-direction steel cable are respectively inserted into the clamp and are fixedly connected with the T-shaped connecting piece through the rigging clamping piece.

Optionally, the steel cable adaptor includes a fixing piece, a first turning component and a second turning component, the fixing piece includes a third fixing piece and a fourth fixing piece, the third fixing piece and the fourth fixing piece are connected into a whole, the fixing piece is of a T-shaped structure, holes are formed in the third fixing piece and the fourth fixing piece, the first turning component and the second turning component include a first turning piece, a first turning end and a second turning piece, a first turning end is arranged between the first turning piece and the second turning piece, holes are formed in the first turning piece and the second turning piece, and the holes in the first turning piece and the second turning piece correspond to the holes in the third fixing piece.

Optionally, the strut adapter comprises a first U-shaped part, a second U-shaped part, a screw assembly and an arc-shaped end part, the arc-shaped end parts are arranged on the first U-shaped part and the second U-shaped part, holes are formed in the upper end and the lower end of the arc-shaped end part, the hole in the first U-shaped part corresponds to the hole in the second U-shaped part, holes are formed in the two sides of the first U-shaped part and the two sides of the second U-shaped part, and the screw assembly is installed on the holes.

Optionally, the steel strand fixing pressing plate comprises a first fixing part and a second fixing part, the first fixing part comprises a fixing end part, a U-shaped end part and a hole, the U-shaped end part is arranged between the fixing end part and the fixing end part, a plurality of holes are formed in the fixing end part, the second fixing part comprises a first end part, a first turning end and a second end part, the first turning end is arranged between the first end part and the second end part, a plurality of holes are formed in the second end part, and the holes are mutually symmetrical and fixed through screws.

Optionally, the four-direction steel cable assembly and the stay bar combination truss between the upright columns at the lower ends of the first steel beam, the second steel beam and the third steel beam are a plurality of steel beams or square tubes.

Optionally, the gap between the U-shaped end parts of the first U-shaped part and the second U-shaped part is 2 times of the cross-sectional size of the stay bar; the gap of the U-shaped end part in the first right-angle U-shaped part is 2 times of the cross section size of the support rod; the vertical stay bar II, the diagonal stay bar, the vertical stay bar I, the cross stay bar I and the cross stay bar II are all square tubes or circular tubes.

Optionally, the upright post is provided with a fastener, an anchor ear or a hole, and the rigging is connected with the upright post through the fastener, the anchor ear or the hole.

Optionally, the number is two or more natural numbers.

Compared with the prior art, the utility model has the beneficial effects that: the stay bar combination truss can be used for connection according to geographic environment and climate factors, or the stay bar combination truss is combined and connected with the four-direction steel cable assembly, so that the support strength is increased, the influence of factors such as wind pressure and snow pressure is reduced, and the steel cable combination truss can be widely applied to areas such as mountainous regions, plains and hills.

Drawings

The utility model is further illustrated below with reference to the figures:

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a structural view of embodiment 1 of the present invention;

FIG. 3 is a structural view of embodiment 2 of the present invention;

FIG. 4 is a block diagram of a strut adapter of the present invention;

FIG. 5 is a block diagram of a strut adapter of the present invention;

FIG. 6 is a block diagram of a cable adapter of the present invention;

FIG. 7 is a block diagram of a cable adapter of the present invention;

fig. 8 is a structural view of a strut combination truss according to the present invention;

FIG. 9 is a block diagram of a four-orientation cable adapter of the present invention;

FIG. 10 is a block diagram of a four-orientation cable adapter of the present invention;

FIG. 11 is a structural view of a steel strand fixing clip of the present invention;

FIG. 12 is a structural view of a steel strand fixing clip of the present invention;

shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12: 1. the four-direction steel cable assembly comprises a four-direction steel cable assembly, 2, a stay rod adapter, 3, a clamping piece, 4, a rigging, 5, a steel cable adapter, 6, a stay rod combination truss, 7, a battery combination clamp, 9, a four-direction stay cable adapter, 10, a steel strand fixing pressure plate, 17, a battery assembly, 1-1, a main steel cable I, 1-2, a main steel cable II, 1-3, a pull-up steel cable, 1-4, a stand column, 1-5, a steel beam I, 1-6, a steel beam II, 1-7, a steel beam III, 1-8, a diagonal steel cable, 61, a stand rod II, 62, a diagonal steel cable, 63, a stand rod I, 64, a cross rod I, 65, a cross rod II, 11, a four-direction steel cable I, 12, a four-direction steel cable II, 13, a four-direction steel cable III, 14, a four-direction steel cable IV, 91, a right-angle U-shaped piece I, 92, an arc end, 93, a square cable adapter, a battery adapter, and a battery assembly, The fixing device comprises an azimuth hole 51, a fixing piece 52, a first turning component 53, a second turning component 55, a third fixing piece 56, a fourth fixing piece 21, a first U-shaped piece 22, a second U-shaped piece 23, a screw component 24, an arc-shaped end 101, a first fixing piece 102, a second fixing piece 1011, a fixing end 1012, a U-shaped end 1013, a hole 1021, a first end 1022, a turning end 1023 and a second end.

Detailed Description

The present invention will be described in further detail with reference to the drawings, which are only for explaining the present invention and are schematic illustrations of the embodiments of the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that the terms "connected" and "connected" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, the multi-azimuth supporting steel cable photovoltaic bracket comprises a four-direction steel cable assembly 1, a stay adapter 2, a fastener 3, a rigging 4, a steel cable adapter 5, a stay combination truss 6, a battery combination clamp 7, a four-direction cable adapter 9, a steel strand fixing pressure plate 10, a battery assembly 17, a first main steel cable 1-1, a second main steel cable 1-2, a pull-up steel cable 1-3, an upright post 1-4, a first steel beam 1-5, a second steel beam 1-6, and a third steel beam 1-7, a plurality of diagonal steel cables 1-8, a first steel beam 1-5, a second steel beam 1-6, and a plurality of steel beams 1-7, a plurality of upright posts 1-4 are respectively installed at the lower ends of the first steel beam 1-5, the second steel beam 1-6, and the third steel beam 1-7, the upright columns 1-4 are at least three in each group, the clamping pieces 3 are arranged on two sides of the upright columns 1-4, the steel beams 1-5, the steel beams 1-6 and the steel beams 1-7 are respectively provided with a main steel cable 1-1, a main steel cable two 1-2 and an upward steel cable 1-3, the main steel cable 1-1 and the upward steel cable 1-3 are respectively positioned on the steel beams 1-5, the steel beam II 1-6 and the steel beam III 1-7 are arranged at the upper ends, the main steel cable II 1-2 is positioned at the steel beam I1-5, the steel beam II 1-6 and the steel beam III 1-7 lower ends, the steel beam I1-5 and the steel beam III 1-7 are respectively and symmetrically provided with a plurality of steel cable adapters 5 at the upper ends and the lower ends, and the steel cable adapters 5, the steel beam I1-5 and the steel beam III 1-7 are fixed by bolts; a plurality of steel strand fixing pressing plates 10 are respectively arranged at the upper end and the lower end of a second steel beam 1-6, a first steel beam 1-5 and a third steel beam 1-7 are respectively starting and stopping ends of the photovoltaic bracket, the starting and stopping ends of the first steel cable 1-1, the second main steel cable 1-2 and the pull-up steel cable 1-3 are respectively connected with the first steel beam 1-5 and the third steel beam 1-7 through rigging 4 and a steel cable adaptor 5, and the first steel cable 1-1, the second main steel cable 1-2 and the pull-up steel cable 1-3 are respectively connected with the second steel beam 1-6 through the steel strand fixing pressing plates 10; the battery assembly 17 is connected with the battery assembly 17 through a battery combination clamp 7, the battery assembly 17 is connected with a first main steel cable 1-1 and a second main steel cable 1-2 through the battery combination clamp 7, and the outer sides of the first steel beam 1-5 and the third steel beam 1-7 are respectively provided with a diagonal steel cable 1-8 through a steel cable adaptor 5 and a rigging 4;

one end or two ends of a main steel cable I1-1, a main steel cable II 1-2, an upward pull steel cable 1-3, a diagonal steel cable 1-8, a four-direction steel cable I11, a four-direction steel cable II 12, a four-direction steel cable III 13 and a four-direction steel cable IV 14 are respectively inserted into a clamp 45 and are fixedly connected with a T-shaped connecting piece 42 through a rigging clamping piece 44;

the stay bar combined truss 6 comprises a plurality of vertical stay bars II 61, inclined stay bars 62, vertical stay bars I63, crossed stay bars I64 and crossed stay bars II 65, one ends of the vertical stay bars II 61 are connected with the inclined stay bars 62 through stay bar adapter pieces 2, the other ends of the vertical stay bars II 61 are connected with the vertical stay bars I63 and the crossed stay bars I64 through stay bar adapter pieces 2, one ends of the crossed stay bars I64 are connected with the vertical stay bars I63 and the crossed stay bars II 65 through stay bar adapter pieces 2, one ends of the crossed stay bars II 65 are connected with the vertical stay bars II 61, the vertical stay bars I63 and the crossed stay bars I64 through four-direction stay bar adapter pieces 9, one ends of the inclined stay bars 62 and the vertical stay bars I63 are connected with the crossed stay bars II 65 through stay bar adapter pieces 2, one ends of the crossed stay bars I65 are connected with the vertical stay bars II 61 and the vertical stay bars I63 through the stay bar adapter pieces 2, and one ends of the crossed stay bars I64 are connected with the vertical stay bars II 61 and the cross stay bars II 61 through the stay bars adapter pieces 2, The inclined struts 62 are connected, the inclined struts 62 are connected with the first vertical struts 63 through the strut adaptor 2, and the number of the inclined struts 62 is two or more than two natural numbers.

The four-direction steel cable assembly 1 comprises a first four-direction steel cable 11, a second four-direction steel cable 12, a third four-direction steel cable 13, a fourth four-direction steel cable 14, a rigging 4 and a fourth four-direction stay cable adaptor 9, wherein one end of the first four-direction steel cable 11, the second four-direction steel cable 12, the third four-direction steel cable 13 and the fourth four-direction steel cable 14 is respectively connected with a clamping piece 3 on the upright post 1-4 through the rigging 4, the other end of the first four-direction steel cable 11 is connected with the fourth four-direction stay cable adaptor 9 through the rigging 4, an upward pulling steel cable 1-3 sequentially penetrates through the fourth four-direction stay cable adaptor 9, a stay bar adaptor 2 on the stay bar combined truss 6 and two ends of the fourth four-direction stay cable adaptor 9 to be respectively connected with a second steel beam 1-6 and a third steel beam 1-7;

four position cable adaptor 9 includes that a right angle U-shaped piece 91, arc end 92, position hole 93 are equipped with arc end 92 on a right angle U-shaped piece 91, and arc end 92 upper end, lower extreme all are equipped with the hole, and arc end 92, the hole on two right angle U-shaped pieces 91 all correspond each other, and a right angle U-shaped piece 91 both sides all are equipped with position hole 93, and a right angle U-shaped piece 91 both sides are equipped with hole and installation screw subassembly 23.

The steel cable adaptor 5 comprises a fixing piece 51, a first turning component 52 and a second turning component 53, wherein the fixing piece 51 comprises a third fixing piece 55 and a fourth fixing piece 56, the third fixing piece 55 and the fourth fixing piece 56 are connected into a whole, the fixing piece 51 is of a T-shaped structure, holes are formed in the third fixing piece 55 and the fourth fixing piece 56, the first turning component 52 and the second turning component 53 respectively comprise a first turning piece 521, a first turning end 522 and a second turning piece 523, a first turning end 522 is arranged between the first turning piece 521 and the second turning piece 523, holes are formed in the first turning piece 521 and the second turning piece 523, and the holes in the first turning piece 521 and the second turning piece 523 correspond to the holes in the third fixing piece 55;

the stay bar adapter 2 comprises a first U-shaped part 21, a second U-shaped part 22, a screw assembly 23 and an arc-shaped end part 24, the arc-shaped end part 24 is arranged on the first U-shaped part 21 and the second U-shaped part 22, holes are formed in the upper end and the lower end of the arc-shaped end part 24, the holes in the first U-shaped part 21 correspond to the holes in the second U-shaped part 22, holes are formed in the two sides of the first U-shaped part 21 and the second U-shaped part 22, and the screw assembly 23 is installed on the holes;

the steel strand fixed pressing plate 10 comprises a first fixed part 101 and a second fixed part 102, wherein the first fixed part 101 comprises a fixed end part 1011, a U-shaped end part 1012 and a hole 1013, the U-shaped end part 1012 is arranged between the fixed end part 1011 and the fixed end part 1011, a plurality of holes 1013 are arranged on the fixed end part 1011, the second fixed part 102 comprises a first end part 1021, a turning end 1022 and a second end part 1023, the turning end 1022 is arranged between the first end part 1021 and the second end part 1023, a plurality of holes 1013 are arranged on the second end part 1023, and the holes 1013 are mutually symmetrical and fixed through screws.

Example 1

When the steel beam adaptor is used, the lower ends of the steel beam I1-5, the steel beam II 1-6 and the steel beam III 1-7 are respectively provided with the upright posts 1-4, the main steel cable I1-1 and the pull-up steel cable 1-3 are respectively positioned at the upper ends of the steel beam I1-5, the steel beam II 1-6 and the steel beam III 1-7, the main steel cable II 1-2 is positioned at the lower ends of the steel beam I1-5, the steel beam II 1-6 and the steel beam III 1-7, and the steel cable adaptor 5, the steel beam I1-5 and the steel beam III 1-7 are fixed by bolts; a plurality of steel strand fixing pressing plates 10 are respectively arranged at the upper end and the lower end of the steel beam II 1-6, the steel beam I1-5 and the steel beam III 1-7 are respectively the starting and stopping ends of the photovoltaic bracket, a brace rod combination truss 6 is arranged on the steel beam II 1-6 and the steel beam II 1-6, according to the installation distance between the steel beam II 1-6 and geographical environment factors, a stay bar combination truss 6 is installed at intervals of two or more steel beam II 1-6, the starting and stopping ends of the steel cable I1-1, the main steel cable II 1-2 and the pull-up steel cable 1-3 are respectively connected with the steel beam I1-5 and the steel beam III 1-7 through riggings 4 and a steel cable adaptor 5, and the steel cable I1-1, the main steel cable II 1-2 and the pull-up steel cable 1-3 are respectively connected with the steel beam II 1-6 through a steel strand fixing pressing plate 10; the first steel cable 1-1, the second main steel cable 1-2 and the pull-up steel cable 1-3 respectively penetrate through the stay bar adapter 2 on the stay bar combination truss 6, the battery assembly 17 is connected with the battery assembly 17 through the battery combination clamp 7, and the battery assembly 17 is connected with the first main steel cable 1-1 and the second main steel cable 1-2 through the battery combination clamp 7.

Example 2

When the steel cable adaptor is used, the lower ends of the first steel beam 1-5, the second steel beam 1-6 and the third steel beam 1-7 are respectively provided with a plurality of upright posts 1-4, the first main steel cable 1-1 and the pull-up steel cable 1-3 are respectively positioned at the upper ends of the first steel beam 1-5, the second steel beam 1-6 and the third steel beam 1-7, the second main steel cable 1-2 is positioned at the lower ends of the first steel beam 1-5, the second steel beam 1-6 and the third steel beam 1-7, and the steel cable adaptor 5, the first steel beam 1-5 and the third steel beam 1-7 are fixed by bolts; a plurality of steel strand fixing pressing plates 10 are respectively arranged at the upper end and the lower end of the steel beam II 1-6, the steel beam I1-5 and the steel beam III 1-7 are respectively the starting and stopping ends of the photovoltaic bracket, the brace rod combination truss 6 and the four-direction steel cable assembly 1 are arranged on the steel beam II 1-6 and the steel beam II 1-6, according to the installation distance between the second steel beam 1-6 and geographical environment factors, the stay bar combination truss 6 and the four-direction steel cable assembly 1 are installed at intervals of two or more steel beams 1-6, the starting and stopping ends of the first steel cable 1-1, the second main steel cable 1-2 and the first pull-up steel cable 1-3 are respectively connected with the first steel beam 1-5 and the third steel beam 1-7 through riggings 4 and steel cable adapters 5, and the first steel cable 1-1, the second main steel cable 1-2 and the first pull-up steel cable 1-3 are respectively connected with the second steel beam 1-6 through steel strand fixing pressing plates 10; the cable assembly comprises a first steel cable 1-1, a second main steel cable 1-2, a stay bar adapter 2 and an upward steel cable 1-3, wherein the stay bar adapter 2 and the upward steel cable 1-3 respectively penetrate through a stay bar combination truss 6 and sequentially penetrate through a four-direction stay rope adapter 9, a battery assembly 17 is connected with the battery assembly 17 through a battery combination clamp 7, and the battery assembly 17 is connected with the first main steel cable 1-1 and the second main steel cable 1-2 through the battery combination clamp 7; one end of a first four-direction steel cable 11, a second four-direction steel cable 12, a third four-direction steel cable 13 and a fourth four-direction steel cable 14 is respectively connected with the clamping pieces 3 on the upright posts 1-4 through rigging 4, and the other end of the four-direction steel cable is connected with the four-direction inhaul cable adaptor 9 through the rigging 4.

The utility model has reasonable structure, can use the stay bar combination truss to connect according to geographical environment and climate factors, or combine and connect the stay bar combination truss and the four-direction steel cable component, increases the supporting strength, reduces the influence of factors such as wind pressure and snow pressure, and can be widely applied to mountainous regions, plains, deserts, hills and other regions.

The above description is illustrative of the present invention and is not to be construed as limiting thereof, as numerous modifications and variations therein will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. Diversified steel cable photovoltaic support that supports, its characterized in that: the cable assembly comprises a four-direction steel cable assembly (1), a stay bar adapter (2), a clamping piece (3), a rigging (4), a steel cable adapter (5), a stay bar combination truss (6), a battery combination clamp (7), a four-direction stay cable adapter (9), a steel strand fixing pressing plate (10), a battery assembly (17), a main steel cable I (1-1), a main steel cable II (1-2), an upward-pulling steel cable (1-3), a stand column (1-4), a steel beam I (1-5), a steel beam II (1-6), a steel beam III (1-7) and an oblique-pulling steel cable (1-8); the lower ends of the first steel beam (1-5), the second steel beam (1-6) and the third steel beam (1-7) are respectively provided with a plurality of upright posts (1-4), the number of the upright posts (1-4) is at least three, the two sides of each upright post (1-4) are provided with clamping pieces (3), the first steel beam (1-5), the second steel beam (1-6) and the third steel beam (1-7) are respectively provided with a first main steel cable (1-1), a second main steel cable (1-2) and a pull-up steel cable (1-3), the first main steel cable (1-1) and the pull-up steel cable (1-3) are respectively positioned at the upper ends of the first steel beam (1-5), the second steel beam (1-6) and the third steel cable (1-7), and the second main steel cable (1-2) is positioned at the first steel beam (1-5), the second steel beam (1-6), The lower end of the steel beam III (1-7), the upper end and the lower end of the steel beam I (1-5) and the steel beam III (1-7) are respectively and symmetrically provided with a plurality of steel cable adapters (5), and the steel cable adapters (5), the steel beam I (1-5) and the steel beam III (1-7) are fixed by bolts; the upper end and the lower end of a second steel beam (1-6) are respectively provided with a plurality of steel strand fixing pressing plates (10), the first steel beam (1-5) and the third steel beam (1-7) are respectively starting and stopping ends of the photovoltaic support, the second steel beam (1-6) is provided with a plurality of steel strands, the starting and stopping ends of the first steel cable (1-1), the second main steel cable (1-2) and the pull-up steel cable (1-3) are respectively connected with the first steel beam (1-5) and the third steel beam (1-7) through rigging (4) and a steel cable adapter (5), and the first steel cable (1-1), the second main steel cable (1-2) and the pull-up steel cable (1-3) are respectively connected with the second steel beam (1-6) through the steel strand fixing pressing plates (10); the battery assembly (17) is connected with the battery assembly (17) through a battery combined clamp (7), the battery assembly (17) is connected with a main steel cable I (1-1) and a main steel cable II (1-2) through the battery combined clamp (7), and the outer sides of the steel beam I (1-5) and the steel beam III (1-7) are respectively provided with a diagonal steel cable (1-8) through a steel cable adaptor (5) and a rigging (4); a stay bar combination truss (6) and/or a four-direction steel cable assembly (1) are arranged between the first steel beam (1-5) and the second steel beam (1-6) and between the second steel beam (1-6) and the third steel beam (1-7);

the stay bar combined truss (6) comprises a plurality of vertical stay bars II (61), diagonal stay bars (62), vertical stay bars I (63), cross stay bars I (64) and cross stay bars II (65), one end of each vertical stay bar II (61) is connected with the diagonal stay bars (62) through a stay bar adapter (2), the other end of each vertical stay bar II (61) is connected with the corresponding vertical stay bar I (63) and the corresponding cross stay bar I (64) through a stay bar adapter (2), one end of each diagonal stay bar I (62) is connected with the corresponding vertical stay bar I (63) and the corresponding cross stay bar II (65) through the stay bar adapter (2), one end of each cross stay bar I (64) is connected with the corresponding vertical stay bar II (61) and the corresponding diagonal stay bar I (62) through a stay bar adapter (9), one end of each cross stay bar II (65) is connected with the corresponding vertical stay bar II (61), the corresponding vertical stay bar I (63) and the corresponding cross stay bar I (64) through a four-direction stay bar adapter (2), one end of a second cross brace rod (65) is connected with a second vertical brace rod (61) and a first vertical brace rod (63) through a brace rod adapter (2), one end of a first cross brace rod (64) is connected with the second vertical brace rod (61) and an inclined brace rod (62) through the brace rod adapter (2), and the inclined brace rod (62) is connected with the first vertical brace rod (63) through the brace rod adapter (2); the stay bar combined truss (6) is increased by a plurality of trusses according to the span distance of the steel beam I (1-5), the steel beam II (1-6) or the steel beam III (1-7);

the four-direction steel cable assembly (1) comprises a first four-direction steel cable (11), a second four-direction steel cable (12), a third four-direction steel cable (13), a fourth four-direction steel cable (14), a rigging (4) and a fourth four-direction steel cable adaptor (9), one end of the first four-direction steel cable (11), the second four-direction steel cable (12), the third four-direction steel cable (13) and one end of the fourth four-direction steel cable (14) are respectively connected with a clamping piece (3) on the upright post (1-4) through the rigging (4), and the other end of the fourth four-direction steel cable is connected with the fourth four-direction steel cable adaptor (9) through the rigging (4); the four-direction steel cable assembly (1) comprises but is not limited to four-direction steel cables;

four position cable adaptor (9) are including right angle U-shaped spare (91), arc end (92), position hole (93), be equipped with arc end (92) on right angle U-shaped spare (91), arc end (92) upper end, the lower extreme all is equipped with the hole, arc end (92) on two right angle U-shaped spares (91), the hole all corresponds each other, right angle U-shaped spare (91) both sides all are equipped with position hole (93), right angle U-shaped spare (91) both sides are equipped with hole and installation screw subassembly (23).

2. The multi-azimuth braced wire rope photovoltaic mount of claim 1, wherein: the pull-up steel cable (1-3) sequentially passes through the four-direction stay cable adaptor (9) or the stay bar adaptor (2) on the stay bar combined truss (6).

3. The multi-azimuth braced wire rope photovoltaic mount of claim 1, wherein: one end or two ends of the first main steel cable (1-1), the second main steel cable (1-2), the pull-up steel cable (1-3), the diagonal steel cable (1-8), the first four-direction steel cable (11), the second four-direction steel cable (12), the third four-direction steel cable (13) and the fourth four-direction steel cable (14) are respectively inserted into the clamp (45) and are fixedly connected with the T-shaped connecting piece (42) through the rigging clamping piece (44).

4. The multi-azimuth braced wire rope photovoltaic mount of claim 1, wherein: the steel cable adaptor (5) comprises a fixing piece (51), a first turning piece (52) and a second turning piece (53), wherein the fixing piece (51) comprises a third fixing piece (55) and a fourth fixing piece (56), the third fixing piece (55) and the fourth fixing piece (56) are connected into a whole, the fixing piece (51) is of a T-shaped structure, holes are formed in the third fixing piece (55) and the fourth fixing piece (56), the first turning piece (52) and the second turning piece (53) respectively comprise a first turning piece (521), a first turning end (522) and a second turning piece (523), a first turning end (522) is arranged between the first turning piece (521) and the second turning piece (523), holes are formed in the first turning piece (521) and the second turning piece (523), and the holes in the first turning piece (521) and the second turning piece (523) correspond to the holes in the third fixing piece (55).

5. The multi-azimuth braced wire rope photovoltaic mount of claim 1, wherein: the support rod adaptor (2) comprises a first U-shaped part (21), a second U-shaped part (22), a screw assembly (23) and an arc-shaped end part (24), wherein the first U-shaped part (21) and the second U-shaped part (22) are respectively provided with the arc-shaped end part (24), the upper end and the lower end of the arc-shaped end part (24) are respectively provided with a hole, the hole in the first U-shaped part (21) corresponds to the hole in the second U-shaped part (22), the two sides of the first U-shaped part (21) and the two sides of the second U-shaped part (22) are respectively provided with a hole, and the screw assembly (23) is installed on the holes.

6. The multi-azimuth braced wire rope photovoltaic mount of claim 1, wherein: fixed clamp plate of steel strand wires (10) are including mounting (101), mounting two (102), mounting (101) are including fixed tip (1011), U-shaped tip (1012), hole (1013), be equipped with U-shaped tip (1012) between fixed tip (1011) and fixed tip (1011), be equipped with a plurality of holes (1013) on fixed tip (1011), mounting two (102) are including first tip (1021), first inflection end (1022), second tip (1023), be equipped with first inflection end (1022) between first tip (1021) and second tip (1023), be equipped with a plurality of holes (1013) on second tip (1023), it is symmetrical and pass through the fix with screw between hole (1013) and the hole (1013).

7. The multi-azimuth braced wire rope photovoltaic mount of claim 1, wherein: the steel beam I (1-5), the steel beam II (1-6), the four-direction steel cable assembly (1) between the upright columns at the lower ends of the steel beam III (1-7) and the upright columns and the stay bar combination truss (6) are all a plurality of steel beam I (1-5), the steel beam II (1-6) and the steel beam III (1-7) are I-shaped steel or square tubes.

8. The multi-azimuth braced wire rope photovoltaic mount of claim 1, wherein: the gap between the U-shaped end parts of the first U-shaped part (21) and the second U-shaped part (22) is 2 times of the cross section size of the support rod; the gap of the U-shaped end part in the first right-angle U-shaped part (91) is 2 times of the cross-sectional size of the stay bar; the vertical stay bar II (61), the diagonal stay bar (62), the vertical stay bar I (63), the cross stay bar I (64) and the cross stay bar II (65) are all square tubes or circular tubes.

9. The multi-azimuth braced wire rope photovoltaic mount of claim 1, wherein: the upright posts (1-4) are provided with clamping pieces (3) and hoops or holes, and the rigging (4) is connected with the upright posts (1-4) through the clamping pieces (3) and the hoops or holes.

10. The multi-azimuth braced wire rope photovoltaic mount of claim 1, wherein: the number is two or more than two natural numbers.

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