CN218103001U - Integrated cable-stayed device suitable for flexible photovoltaic support double cables - Google Patents

Abstract

The utility model discloses an integration cable-stay device suitable for two cables of flexible photovoltaic support, draw the device to one side including the integration, the prestressing force pull rod, the connecting plate, the pull rod support, the girder steel, the subassembly bearing cable, the stable cable, the subassembly, the anchor stake, the stand, the round pin axle. The flexible photovoltaic system is a photovoltaic bracket system for mounting components on component bearing cables in rows, the steel cables are connected with steel beams, and the larger bending moment of the flexible photovoltaic system on the bracket is balanced by prestressed pull rods on the other side of the steel beams. The integrated cable-stayed device replaces a prestressed pull rod corresponding to two component bearing cables, a force transmission path is combined to one prestressed pull rod through a truss structure of the integrated cable-stayed device, and the pull rod is fixed with an anchoring pile through a pull rod support. Compared with the traditional assembly in which two pull rods are obliquely pulled and fixed, the integrated oblique pulling device is adopted, so that the number of members required by the anchoring end is reduced, convenience is brought to construction and installation, and the integrated oblique pulling device has a wide application prospect.

Description

Integrated cable-stayed device suitable for flexible photovoltaic support double cables

Technical Field

The utility model relates to a flexible photovoltaic support field, what specifically say is a draw device to one side of integration suitable for two cables of flexible photovoltaic support.

Background

The flexible photovoltaic support is a technology for changing purlines of a traditional rigid support scheme into steel cables and adopting prestress tension fixation, the steel cables are connected with steel beams, and large bending moment of the flexible photovoltaic support on the support is balanced by prestress pull rods on the other side of the steel beams. The technology can fully utilize land used in mountainous regions, fish ponds and the like with poor terrain conditions but good light resources, reduce the cost of raw materials of the bracket and has very wide application prospect. The prior art flexible stent is arranged in a plane as shown in fig. 1.

In flexible photovoltaic support technique, draw anchor end to one side and be one of important structural design control factor, current flexible support, traditional way is for adopting the internal force of transmission in the form balance support span of two steel pull rods or bilateral cable, if need draw anchor end to one side and carry out the prestressing force and stretch-draw, also need go on respectively to adjust many times, the installation degree of difficulty is great, and is higher to construction installation operation level requirement. And, two anchor pile intervals of single row subassembly of traditional way are nearer, when the construction, can change the lateral compressive stress of underground soil, still can produce the pile group effect, all can reduce pile body bearing capacity.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above-mentioned not enough, the utility model provides an integration cable-stay device suitable for two cables of flexible photovoltaic support, the device will replace the prestressing force pull rod that corresponds two subassembly bearing cables, and on the truss structure through self will pass the power route and merge a prestressing force pull rod, the pull rod is fixed through pull rod support and anchor pile again. Compared with the traditional assembly in which two pull rods are obliquely pulled and fixed, the integrated oblique pulling device is adopted, the anchoring pile members required by the anchoring end are reduced, the problem of too close pile spacing is solved, convenience is brought to construction and installation, the application prospect is wide, and the construction adaptability is better.

The utility model is realized in such a way, an integrated cable-stayed device suitable for the double cables of the flexible photovoltaic bracket is constructed, which is characterized in that; the integration cable-stay device suitable for two cable of flexible photovoltaic support includes: the integrated cable-stayed device, the prestressed pull rod, the connecting plate, the pull rod support, the steel beam, the component bearing cable, the stabilizing cable, the component, the anchoring pile, the stand column and the pin shaft; the integrated cable-stayed device, the prestressed pull rod, the pull rod support and the anchoring pile are arranged on one side of the steel beam, and the other side of the steel beam is provided with a component bearing cable, a stabilizing cable, a component and an upright post in the support span.

According to flexible photovoltaic support double-cable's integration draw device to one side, its characterized in that: the integrated cable-stayed device is positioned in a flexible photovoltaic system, the flexible photovoltaic system is a photovoltaic support system for mounting components on component bearing cables in rows, a prestressed cable head of a steel cable is connected with a steel beam connecting plate through a pin shaft, the steel cable is used for tensioning the component bearing cables and a stabilizing cable by adjusting the prestressed cable head part, the larger bending moment of the steel cable on the support is balanced by a prestressed pull rod anchoring end on the other side of the steel beam, and the device is positioned on one side of the cable-stayed anchoring end.

According to flexible photovoltaic support double-cable's integration draw device to one side, its characterized in that: the integrated cable-stayed device is positioned at a cable-stayed anchoring end at one side of the steel beam, the device is connected with a connecting plate on the steel beam close to one side of the steel beam, the device is connected with the prestressed pull rod at the other side of the steel beam, and the cable-stayed anchoring end balances the force transmitted by the bearing cable and the stabilizing cable of the assembly, so that a stable prestressed flexible support system is formed.

According to flexible photovoltaic support double-cable's integration draw device to one side, its characterized in that: the integrated cable-stayed device is divided into four parts, namely a gusset plate, a force transmission truss, a steel beam connecting lug plate and a pull rod connecting lug plate. The two steel beam connecting lug plates are connected with the connecting plates on the steel beams through the pin shafts, the pull rod connecting lug plates are connected with the pull rod cable heads through the pin shafts, the force transmission paths of the trusses and the gusset plates are combined on a prestressed pull rod, the device and the pull rod are jointly inclined, an inclined pull anchoring end is jointly formed through the pull rod support and the anchoring pile, and the bending moment of the prestressed cable transmitted to support systems such as the steel beams and the upright posts is balanced.

The utility model has the advantages of as follows: the utility model discloses an integration cable-stay device suitable for two cables of flexible photovoltaic support has the integration and draws the device to one side, prestressing force pull rod, connecting plate, the pull rod support, the girder steel, subassembly bearing cable, the stable cable, the subassembly, the anchor stake, the stand, the round pin axle. The flexible photovoltaic system is a photovoltaic bracket system for mounting components on component bearing cables in rows, the steel cables are connected with steel beams, and the larger bending moment of the flexible photovoltaic system on the bracket is balanced by prestressed pull rods on the other side of the steel beams. The integrated cable-stayed device replaces a prestressed pull rod corresponding to two component bearing cables, a force transmission path is combined to one prestressed pull rod through a truss structure of the integrated cable-stayed device, and the pull rod is fixed with an anchoring pile through a pull rod support. Compared with the traditional assembly in which two pull rods are obliquely pulled and fixed, the integrated oblique pulling device is adopted, so that the number of members required by the anchoring end is reduced, convenience is brought to construction and installation, and the integrated oblique pulling device has a wide application prospect.

Drawings

FIG. 1 is a schematic diagram of a conventional approach;

fig. 2 is a schematic plan view of the integrated cable-stayed device provided by the utility model;

fig. 3-5 are schematic views of the integrated cable-stayed device provided by the present invention;

fig. 6 is a schematic view of the integrated oblique pulling device elevation layout provided by the utility model.

Wherein: comprises an integrated cable-stayed device 1, a prestressed pull rod 2, a connecting plate 3, a pull rod support 4, a steel beam 5, a component bearing cable 6, a stabilizing cable 7, a component 8, an anchoring pile 9, a stand column 10 and a pin shaft 11,

the assembly of load bearing cable rope 601, stabilizer cable rope 701, rigging 602, rigging 702,

gusset plate 101, force transmission truss 102, steel beam connecting lug plate 103, and pull rod connecting lug plate 104.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 6, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model discloses an improve and provide a device is drawn to one side in integration suitable for two cables of flexible photovoltaic support here, include: the integrated cable-stayed device comprises an integrated cable-stayed device 1, a prestressed pull rod 2, a connecting plate 3, a pull rod support 4, a steel beam 5, a component bearing cable 6, a stabilizing cable 7, a component 8, an anchoring pile 9, an upright post 10 and a pin shaft 11; wherein, the integrated cable-stayed device 1, the prestressed pull rod 2, the pull rod support 4 and the anchoring pile 9 are arranged on one side of the steel beam, and the other side is provided with a component bearing cable 6, a stabilizing cable 7, a component 8 and a stand column 10 in the support span.

When in implementation; the integrated cable-stayed device 1 is positioned in a flexible photovoltaic system, the flexible photovoltaic system is a photovoltaic support system for mounting components on component bearing cables in rows, a prestressed cable head of a steel cable is connected with a steel beam connecting plate through a pin shaft, the steel cable is used for tensioning the component bearing cables and a stabilizing cable by adjusting the prestressed cable head part, the larger bending moment of the steel cable on the support is balanced by a prestressed pull rod anchoring end on the other side of the steel beam, and the device is positioned on one side of the cable-stayed anchoring end.

When in implementation; the integrated cable-stayed device is positioned at a cable-stayed anchoring end at one side of the steel beam, the device is connected with a connecting plate on the steel beam close to one side of the steel beam, the device is connected with the prestressed pull rod at the other side of the steel beam, and the cable-stayed anchoring end balances the force transmitted by the bearing cable and the stabilizing cable of the assembly, so that a stable prestressed flexible support system is formed.

When in implementation; the integrated cable-stayed device is divided into four parts, namely a gusset plate, a force transmission truss, a steel beam connecting lug plate and a pull rod connecting lug plate. The two steel beam connecting lug plates are connected with the connecting plates on the steel beams through the pin shafts, the pull rod connecting lug plates are connected with the pull rod cable heads through the pin shafts, the force transmission paths of the trusses and the gusset plates are combined on a prestressed pull rod, the device and the pull rod are jointly inclined, an inclined pull anchoring end is jointly formed through the pull rod support and the anchoring pile, and the bending moment of the prestressed cable transmitted to support systems such as the steel beams and the upright posts is balanced.

When in implementation; the steel beam 5 is located above the upright 10, the assembly load bearing cable 601 and stabilizing cable 701 are fixed with the steel beam 5 through rigging 602, 702, and the device 1 and the steel beam 5 are connected with each other through pin shafts 11 on both sides of the steel beam 5 through steel beam connecting plates 3.

Referring to fig. 3-5, the integrated cable-stayed device 1 is divided into a gusset plate 101, a force-transmitting truss 102, a steel beam connecting lug plate 103 and a pull rod connecting lug plate 104.

Specifically, the 2 steel beam connecting lug plates 103 are connected with the connecting plates 3 on the steel beams 5 through the pin shafts 11, the pull rod connecting lug plates 104 are connected with the cable heads of the pull rods 2 through the pin shafts, and the truss 102 and the gusset plate 101 combine force transmission paths to one prestressed pull rod 2.

Referring to fig. 6, the device 1 and the tie rod 2 are pulled obliquely together, and the tie rod support 4 and the anchor pile 9 form an oblique-pulling anchor end.

Specifically, a cable-stayed anchoring end formed by the device 1, the pull rod 2, the support 4 and the anchoring pile 9 is connected with the assembly bearing cable 6, and the stabilizing cable 7 is connected with the connecting plate 3 on the steel beam 5 through a pin shaft 11.

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

Claims (4)

1. An integrated cable-stayed device suitable for a flexible photovoltaic bracket double cable is characterized in that a cable-stayed cable is arranged between a cable-stayed cable and a cable-stayed cable; the integration cable-stay device suitable for two cable of flexible photovoltaic support includes: the integrated cable-stayed device (1), the prestressed pull rod (2), the connecting plate (3), the pull rod support (4), the steel beam (5), the component bearing cable (6), the stabilizing cable (7), the component (8), the anchoring pile (9), the upright column (10) and the pin shaft (11); the integrated cable-stayed device (1), the prestressed pull rod (2), the pull rod support (4) and the anchor pile (9) are arranged on one side of the steel beam, and the other side of the integrated cable-stayed device is provided with a component bearing cable (6), a stabilizing cable (7), a component (8) and a stand column (10) in the support span.

2. The integrated cable-stayed device for the double cables of the flexible photovoltaic bracket according to claim 1, characterized in that: the integrated cable-stayed device is positioned in a flexible photovoltaic system, the flexible photovoltaic system is a photovoltaic support system for mounting components on component bearing cables in rows, a prestressed cable head of a steel cable is connected with a steel beam connecting plate through a pin shaft, the steel cable is used for tensioning the component bearing cables and a stabilizing cable by adjusting the prestressed cable head part, the larger bending moment of the steel cable on the support is balanced by a prestressed pull rod anchoring end on the other side of the steel beam, and the device is positioned on one side of the cable-stayed anchoring end.

3. The integrated cable-stayed device for the double cables of the flexible photovoltaic bracket according to claim 1, characterized in that: the integrated cable-stayed device is positioned at a cable-stayed anchoring end on one side of the steel beam, the device is connected with a connecting plate on the steel beam close to one side of the steel beam, the device is connected with the prestressed pull rod on the other side of the steel beam, and the cable-stayed anchoring end balances the force transmitted by the bearing cable and the stabilizing cable of the assembly, so that a stable prestressed flexible support system is formed.

4. The integrated cable-stayed device for the double cables of the flexible photovoltaic bracket according to claim 1, characterized in that: the integrated cable-stayed device is divided into four parts, namely a gusset plate, a force transmission truss, a steel beam connecting lug plate and a pull rod connecting lug plate part; the two steel beam connecting lug plates are connected with the connecting plates on the steel beams through the pin shafts, the pull rod connecting lug plates are connected with the pull rod cable heads through the pin shafts, the force transmission paths of the trusses and the gusset plates are combined on a prestressed pull rod, the device and the pull rod are jointly inclined, an inclined pull anchoring end is jointly formed through the pull rod support and the anchoring pile, and the bending moment of the prestressed cable transmitted to support systems such as the steel beams and the upright posts is balanced.

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