CN217461998U - Fixed photovoltaic support component assists assembly and disassembly tools - Google Patents

Abstract

A fixed photovoltaic bracket assembly assists assembly and disassembly tools, includes: the connecting beam, the step module and the buckle module are fixedly connected; the module of marking time with the buckle module all sets up to a plurality ofly, and is a plurality of the module of marking time can dismantle the connection through connecting the crossbeam. The utility model provides a pair of fixed photovoltaic bracket component assists assembly and disassembly tools provides reliable fulcrum for the maintainer, and the maintainer of being convenient for changes the maintenance to photovoltaic module, shortens and changes the photovoltaic module time, improves operation maintenance efficiency.

Description

Fixed photovoltaic support component assists assembly and disassembly tools

Technical Field

The utility model relates to a photovoltaic module's technical field, concretely relates to fixed photovoltaic bracket component assists assembly and disassembly tools.

Background

The photovoltaic industry is a technology for performing photoelectric conversion by using solar energy, is one of the emerging industries with the fastest global development and growth, and has rich solar energy resources and very wide application prospects. The photovoltaic system mainly comprises components, a combiner box, an inverter, a box transformer substation and the like. The photovoltaic module is fixedly installed through a fixed support with a certain installation angle or a support system with a tracking sun function. As a core device photovoltaic module of a photovoltaic power station, when faults such as explosion, thermal breakdown and the like occur, the photovoltaic module cannot be maintained and can only be integrally replaced and processed. The field photovoltaic modules are longitudinally arranged, and a photovoltaic array is formed in a series-parallel mode.

When the subassembly above the photovoltaic array breaks down and needs to be changed, do not have a reliable strong point on the photovoltaic support and supply the maintainer to trample the operation. Generally, the components below the corresponding platform need to be dismantled and then placed on a climbing platform for operation, and the operation process is long in time consumption and low in efficiency.

SUMMERY OF THE UTILITY MODEL

In order to change the problem that the operation is long consuming time and inefficiency when the subassembly above the solution photovoltaic array breaks down, the utility model provides a fixed photovoltaic bracket component assists assembly and disassembly tools, include: the connecting beam, the step module and the buckle module are fixedly connected;

the module of marking time with the buckle module all sets up to a plurality ofly, and is a plurality of the module of marking time can dismantle the connection through connecting the crossbeam.

Preferably, each of the tread modules comprises two fixed cross beams and at least two pedals;

the two fixed cross beams are arranged in parallel;

the at least two pedals are arranged in parallel and are arranged along the extending direction of the fixed cross beam;

the pedal is of a plate-shaped structure;

two sides of one end of the pedal are respectively fixedly connected with the two fixed cross beams, and an included angle is formed between the pedal and the fixed cross beams;

the buckle modules are fixedly connected to the two fixed cross beams of the same stepping module;

two adjacent fixed cross beams belonging to different stepping modules are detachably connected through the connecting cross beam.

Preferably, the number of the pedals is three, and the pedals are respectively and fixedly connected to the two ends and the middle part of the fixed cross beam.

Preferably, the included angle between the pedal and the fixed cross beam is 37 degrees.

Preferably, the connecting beam is provided with a square groove;

the connecting beam is detachably connected with the fixed beam through the square groove.

Preferably, the number of the square grooves formed in the connecting beam is two.

Preferably, the connecting beam and the fixed beam are both made of angle steel.

Preferably, the buckle module comprises a buckle base in a plate-shaped structure and a group of buckle plates;

the buckle plate is fixedly connected to the largest side face of the buckle base and is perpendicular to the buckle base;

the side face, deviating from the buckling plate, of the buckling base is fixedly connected to the stepping module.

Preferably, the buckle plate is arranged at the end part of the buckle base, which deviates from the connecting beam.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model provides a fixed photovoltaic bracket component assists assembly and disassembly tools, include: the connecting beam, the step module and the buckle module are fixedly connected; the module of marking time with the buckle module all sets up to a plurality ofly, and is a plurality of the module of marking time can dismantle the connection through connecting the crossbeam. The utility model provides a pair of fixed photovoltaic bracket component assists assembly and disassembly tools provides reliable fulcrum for the maintainer, and the maintainer of being convenient for changes the maintenance to photovoltaic module, shortens and changes the photovoltaic module time, improves operation maintenance efficiency.

Drawings

Fig. 1 is a schematic view of the overall structure of a set of fixed photovoltaic support assembly auxiliary dismounting tool of the present invention;

fig. 2 is a first view structural diagram of the fixed photovoltaic support assembly auxiliary dismounting tool of the present invention mounted on a photovoltaic support;

fig. 3 is the utility model discloses a second visual angle structure schematic diagram of one set of fixed photovoltaic bracket component auxiliary dismounting tool and photovoltaic support completion installation.

Wherein, 1, a step module; 11. fixing the cross beam; 12. a pedal; 2. a buckle module; 21. a buckle plate; 22. a buckle base; 3. connecting the cross beam; 4. pressing a photovoltaic module block; 5. a photovoltaic module; 6. square channel steel.

Detailed Description

The utility model discloses a fixed photovoltaic bracket component assists assembly and disassembly tools, the device provide reliable fulcrum for the maintainer, and the maintainer of being convenient for changes the maintenance to photovoltaic module, shortens and changes the photovoltaic module time, improves operation maintenance efficiency.

Examples

An auxiliary dismounting tool for a fixed photovoltaic support assembly, as shown in fig. 1, comprises: the connecting beam 3, the stepping module 1 and the buckle module 2 are fixedly connected; the stepping modules 1 and the buckle modules 2 are all arranged to be multiple, and the stepping modules 1 are detachably connected through the connecting beam 3.

Each step module 1, as shown in fig. 1, comprises two fixed cross-members 11 and at least two pedals 12; the two fixed cross beams 11 are arranged in parallel; at least two pedals 12 are arranged in parallel, and the at least two pedals 12 are arranged along the extending direction of the fixed cross beam 11; the pedal 12 is of a plate-shaped structure; two sides of one end of the pedal 12 are respectively fixedly connected with the two fixed cross beams 11, and an included angle is formed between the pedal 12 and the fixed cross beams 11; the buckle modules 2 are fixedly connected to two fixed cross beams 11 of the same step module 1; two adjacent fixed cross beams 11 belonging to different tread modules 1 are detachably connected by a connecting cross beam 3. The number of the pedals 12 is three, and the pedals are respectively and fixedly connected to the two ends and the middle part of the fixed cross beam 11. The specific manner of the fixed connection in this embodiment is not limited, and includes but is not limited to bolting, welding, and the connection function required by the corresponding structure can be achieved. In this embodiment, the fixed cross beam 11 is made of angle steel with a thickness of 4mm, the two parallel sides of the fixed cross beams 11 in the same step module 1 are oppositely arranged, the other side of the two fixed cross beams 11 is coplanar, the two sides of the same end of the pedal 12 are fixedly connected to the two oppositely arranged sides, and the three pedals 12 extend out from the same side of the two fixed cross beams 11.

The contained angle of photovoltaic module 5 and ground is 37, for avoiding marking time module 1 to cause the extrusion to photovoltaic module 5, fixed beam 11 is parallel with photovoltaic module 5, and the footboard 12 of marking time module 1 keeps parallel with ground, and the contained angle of footboard 12 and fixed beam 11 is 37.

A square groove is formed on the connecting beam 3; the connecting beam 3 is detachably connected with the fixed beam 11 through a square groove. The number of the square grooves formed in the connecting beam 3 is two. In this embodiment, the connecting beam 3 is made of angle steel with a thickness of 4 mm. The connecting beam 3 is provided with square grooves with the width of 4mm, different groove intervals are designed between the two square grooves according to the sizes of different types of photovoltaic groups, and two side plates which are arranged oppositely and belong to two adjacent fixed beams 11 of different stepping modules 1 are respectively clamped in the two square grooves; the stepping modules 1 are connected and fixed with the fixed beam 11 in a plug-in manner through the connecting beam 3. The number of the connecting beams 3 is not limited, and the actual requirements can be met.

The buckle module 2, as shown in fig. 1, includes a buckle base 22 in a plate-shaped structure and a set of buckle plates 21; the buckle plate 21 is fixedly connected to the largest side surface of the buckle base 22 and is perpendicular to the buckle base 22; the side of the catch base 22 facing away from the catch plate 21 is fixedly connected to the step module 1. The snap plate 21 is arranged at the end of the snap base 22 facing away from the connecting beam 3. In this embodiment, the number of the buckling plates 21 in the group of buckling plates 21 is two, and the two buckling plates 21 are arranged in a coplanar manner and have a distance therebetween. The space between the two buckling plates 21 is matched with the photovoltaic module pressing block 4 on the photovoltaic support.

The specific implementation method comprises the following steps: this embodiment selects one set of fixed photovoltaic bracket component to assist assembly and disassembly tools to include two module 1 of marking time, two buckle modules 2 and two connection crossbeam 3, as shown in fig. 1. Firstly, the pedals 12 are welded at corresponding positions of the fixed cross beam 11, and the assembly of the two stepping modules 1 is completed; secondly, welding the buckle plate 21 to the response position of the buckle base 22 to complete the assembly of the two buckle modules 2; then, welding the side of the buckle base 22 departing from the buckle plate 21 on the side of the stepping module 1 departing from the pedal 12; thirdly, according to construction requirements, two square grooves with corresponding intervals are formed in the connecting cross beam 3; and finally, clamping two square grooves on the same connecting beam 3 on the adjacent fixed beams 11 of the two stepping modules 1 to complete the assembly of one set of fixed photovoltaic bracket assembly auxiliary disassembling tool.

As shown in fig. 2 and 3, the photovoltaic support comprises a square channel steel 6 and a photovoltaic module pressing block 4, the square channel steel 6 and the photovoltaic module pressing block 4 which is of a plate-shaped structure are connected through bolts, and the photovoltaic module 5 is extruded between the square channel steel 6 and the photovoltaic module pressing block 4, so that the photovoltaic module 5 is installed on the photovoltaic support. When photovoltaic module 5 breaks down, connect two buckle modules 2 in the supplementary assembly and disassembly tools of one set of fixed photovoltaic bracket component on two photovoltaic module briquetting 4 of photovoltaic module 5 both sides, two buckle boards 21 all with 6 butts of square channel steel, realize the installation of the supplementary assembly and disassembly tools of fixed photovoltaic bracket component and photovoltaic support, at this moment, the footboard 12 of the supplementary assembly and disassembly tools of fixed photovoltaic bracket component is parallel with ground, fixed cross beam 11 and buckle base 22 all are parallel with photovoltaic module 5, buckle board 21 is perpendicular with photovoltaic module 5, and two sets of buckle boards 21 are located photovoltaic module 5's both sides respectively. After the assembly and disassembly tools is assisted to fixed photovoltaic bracket component and the photovoltaic bracket is installed, the stress point of the whole device is on the contact surface of the buckle plate 21 and the square channel steel 6.

After the assembly and disassembly tools is assisted to fixed photovoltaic bracket component and the installation is accomplished to the photovoltaic bracket, the assembly and disassembly tools is assisted to fixed photovoltaic bracket component provides reliable fulcrum for the maintainer, and the maintainer of being convenient for changes photovoltaic module 5 and overhauls, shortens and changes photovoltaic module 5 time, improves operation maintenance efficiency.

The number that fixed photovoltaic bracket component assists assembly and disassembly tools to use at the same moment is selected according to specific in-service use needs, and this embodiment does not do specific restriction.

The above description is only exemplary of the invention and is not intended to limit the invention, and any modifications, equivalent alterations, improvements and the like which are made within the spirit and principle of the invention are all included in the scope of the claims which are appended hereto.

Claims (9)

1. The utility model provides a fixed photovoltaic bracket component assists assembly and disassembly tools which characterized in that includes: the connecting beam (3), the step module (1) and the buckle module (2) are fixedly connected;

the stepping module (1) and the buckle module (2) are all arranged to be a plurality of, and a plurality of the stepping module (1) is detachably connected through a connecting beam (3).

2. The fixed photovoltaic rack assembly aid disassembly tool of claim 1, wherein each of said step modules (1) comprises two fixed beams (11) and at least two pedals (12);

the two fixed cross beams (11) are arranged in parallel;

the at least two pedals (12) are arranged in parallel, and the at least two pedals (12) are arranged along the extending direction of the fixed cross beam (11);

the pedal (12) is of a plate-shaped structure;

two sides of one end of the pedal (12) are respectively fixedly connected with the two fixed cross beams (11), and an included angle is formed between the pedal (12) and the fixed cross beams (11);

the buckle module (2) is fixedly connected to the two fixed cross beams (11) of the same step module (1);

the two adjacent fixed cross beams (11) belonging to different stepping modules (1) are detachably connected through the connecting cross beam (3).

3. The auxiliary dismounting tool for the fixed photovoltaic bracket assembly according to claim 2, wherein the number of the pedals (12) is three, and the pedals are respectively and fixedly connected to the two ends and the middle part of the fixed cross beam (11).

4. The auxiliary dismounting tool for a fixed photovoltaic support assembly according to claim 2, wherein the included angle between said pedal (12) and said fixed beam (11) is 37 °.

5. The auxiliary dismounting tool for the fixed photovoltaic bracket assembly according to claim 2, wherein a square groove is formed on the connecting beam (3);

the connecting beam (3) is detachably connected with the fixed beam (11) through the square groove.

6. The auxiliary dismounting tool for the fixed photovoltaic bracket assembly according to claim 5, wherein the number of the square grooves formed on the connecting beam (3) is two.

7. The auxiliary dismounting tool for the fixed photovoltaic bracket assembly according to claim 5, wherein the connecting beam (3) and the fixed beam (11) are both made of angle steel.

8. The auxiliary dismounting tool for the fixed photovoltaic bracket assembly according to claim 2, wherein the snap module (2) comprises a snap base (22) in a plate-shaped structure and a set of snap plates (21);

the buckle plate (21) is fixedly connected to the largest side face of the buckle base (22) and is perpendicular to the buckle base (22);

the side face, deviating from the buckling plate (21), of the buckling base (22) is fixedly connected to the stepping module (1).

9. The fixed photovoltaic support assembly auxiliary dismounting tool according to claim 8, wherein said snap plate (21) is arranged at an end of said snap base (22) facing away from said connecting beam (3).

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