CN117176034A - Fixed-point unidirectional serial sliding installation machine tool and method for photovoltaic cell assembly - Google Patents

Abstract

A fixed-point unidirectional serial sliding installation machine tool and a fixed-point unidirectional serial sliding installation method for a photovoltaic cell assembly belong to the technical field of photovoltaic cells. The photovoltaic cable comprises a support, a sliding rail, sliding blocks, connecting pieces, a guy cable, fixed pulleys and an electric driving device, wherein the sliding rail is installed at the top of the support, a plurality of sliding blocks are slidably arranged above the sliding rail, connection is established between every two adjacent sliding blocks through the connecting pieces, photovoltaic cell assemblies are installed on the sliding blocks, the connecting pieces are connected with one side of the guy cable, and the other side of the guy cable is connected with the electric driving device through the fixed pulleys. The problems of large field installation workload, large quality control difficulty, low installation efficiency and hidden cracking of a battery assembly in the existing photovoltaic assembly installation are solved, the fixed-point unidirectional serial sliding installation of the sliding block type photovoltaic assembly is realized by adopting the sliding block type photovoltaic assembly and the electric driving device, the problem of stress damage to the photovoltaic cell assembly caused by vibration, swing and other factors is avoided, the installation efficiency is greatly improved, and the photovoltaic assembly is suitable for complex geographical environments in areas such as Sha Gehuang.

Description

Fixed-point unidirectional serial sliding installation machine tool and method for photovoltaic cell assembly

Technical Field

The invention relates to a fixed-point unidirectional serial sliding installation machine tool and method for a photovoltaic cell assembly, and belongs to the technical field of photovoltaic cells.

Background

In recent years, the continuous development of the photovoltaic industry has driven the application of renewable energy sources and the transformation and upgrading of the energy industry. Photovoltaic power stations are widely developed and built in various forms such as 'water light complementation', 'pasturing light complementation', 'fishing light complementation', 'agricultural light complementation', and the like. However, the geographical conditions of the "Sha Ge barren" region limit the application of traditional installation methods, and the earth road of the "Sha Ge barren" region is not sufficiently level. The installation process of the traditional photovoltaic module installation method needs a plurality of links, and adverse factors such as vibration, swing and the like exist in the in-site transportation and installation process, and the adverse factors inevitably cause stress damage to the photovoltaic module, so that the performance of the photovoltaic module is reduced and the service life of the photovoltaic module is shortened.

Therefore, it is needed to propose a new sliding installation technology for facilitating installation of photovoltaic cell components, so as to solve the problems of large field installation workload, large quality control difficulty, low installation efficiency, hidden cracking of the cell components and the like. The machine tool and the installation method can solve the problems faced by the installation of the existing photovoltaic modules, and provide a high-efficiency and reliable solution for the installation of the photovoltaic modules in Sha Ge barren areas.

Disclosure of Invention

The present invention has been developed to solve the problems of large field installation workload, high quality control difficulty, low installation efficiency, and hidden cracking of the battery module in the existing photovoltaic module installation, and a brief overview of the present invention is given below to provide a basic understanding of some aspects of the present invention. It should be understood that this summary is not an exhaustive overview of the invention. It is not intended to identify key or critical elements of the invention or to delineate the scope of the invention.

The technical scheme of the invention is as follows:

the first scheme, a photovoltaic cell subassembly fixed point one-way series connection slip installation machine tool, including support, slide rail, slider, connecting piece, cable, fixed pulley and electric drive, the slide rail is installed at the support top, and slide rail top slip is provided with a plurality of sliders, establishes the connection through the connecting piece between every two adjacent sliders, installs photovoltaic cell subassembly on the slider, and the connecting piece is connected with cable one side establishment, and the cable opposite side passes through fixed pulley and electric drive establishes the connection.

Preferably: the sliding rails are at least two and are arranged on the top of the bracket in parallel.

Preferably: the electric driving device comprises a motor, a driving support frame and an axle, the axle is rotatably arranged on the driving support frame, the axle is connected with the output end of the motor, and the inhaul cable is wound on the axle.

Preferably: the sliding rail is provided with a plurality of positioning holes, and the connecting piece is fixedly arranged on the positioning holes of the sliding rail through bolts.

Preferably: the sliding rail is a purline, and the purline prepared from channel steel is in sliding fit with the sliding block.

Preferably: and the two adjacent sliding blocks are connected through a rigid rod.

Preferably: the inhaul cable is provided with at least two inhaul cables.

Preferably: the bottom of the driving support frame is provided with rollers.

Preferably: and a limiter is arranged on the sliding rail.

The scheme II, a photovoltaic cell assembly fixed point unidirectional serial sliding installation method, rely on the installation method of a photovoltaic cell assembly fixed point unidirectional serial sliding installation machine tool of scheme I, include the following step:

prefabricating and forming a bracket, a sliding rail, a sliding block, a connecting piece, a guy rope, a fixed pulley and an electric driving device in respective factories, and installing the sliding rail on the bracket in advance to ensure that the sliding rail is smooth and fixed on the bracket so as to facilitate the sliding installation of a subsequent photovoltaic cell assembly;

step two, a first sliding block is arranged on the sliding rail, and a first connecting piece is arranged on one side of the first sliding block;

step three, installing an electric driving device at one end of a sliding rail, winding one end of a guy cable on a wheel shaft of the electric driving device, and connecting the other end of the guy cable with a first connecting piece after passing through a fixed pulley;

step four, starting a motor of the electric driving device, and driving the retraction of the inhaul cable through the wheel shaft so as to control the sliding speed and the sliding direction of the photovoltaic cell assembly; the first sliding block slides forwards along the sliding rail and is installed in a fixed-point unidirectional serial sliding way along the way;

fifthly, the fixed-point unidirectional serial sliding installation is that a plurality of sliding blocks are sequentially placed on a sliding rail, connection is established between adjacent sliding blocks through connecting pieces, and a photovoltaic cell assembly is installed at the top of each sliding block;

and step six, when the photovoltaic cell assembly reaches the installation position, fixing the connecting piece at the positioning hole of the sliding rail by using a bolt, so as to ensure the position accuracy and stability of the photovoltaic cell assembly.

The invention has the following beneficial effects:

1. the invention adopts the slider type photovoltaic module and the electric driving device to realize the fixed-point unidirectional serial sliding installation of the slider type photovoltaic module, the mode avoids the problem of stress damage to the photovoltaic cell module caused by vibration, swing and other factors in the traditional installation method, greatly improves the installation efficiency, and is suitable for complex geographical environments of areas such as Sha Gehuang and the like;

2. compared with the traditional manual installation method, the invention can obviously reduce the installation time and the manpower resource investment;

3. the positioning holes, the bolts and the connecting pieces are matched, so that the position of the photovoltaic cell assembly can be accurately controlled, and the installation quality is ensured;

4. the fixed-point unidirectional serial sliding installation method of the photovoltaic cell assembly has the advantages of high efficiency, rapidness, strong adaptability and the like, plays an important role in building large-scale wind-driven photovoltaic bases in Sha Ge barren areas and the like, promotes the wide application of photovoltaic cell technology, and makes positive contribution to the development of renewable energy industry.

Drawings

FIG. 1 is a perspective view of a photovoltaic cell assembly fixed point unidirectional tandem slide mounting machine;

FIG. 2 is a top view of a photovoltaic cell assembly fixed point unidirectional tandem slide mounting machine;

FIG. 3 is a front view of a photovoltaic cell assembly fixed point unidirectional tandem slide mounting machine;

FIG. 4 is a schematic illustration of the fit of the bolt with the pilot hole of the present invention;

FIG. 5 is an enlarged view at A of FIG. 3;

FIG. 6 is a perspective view of a slider of the present invention;

in the figure, a 1-bracket, a 2-sliding rail, a 3-sliding block, a 4-connecting piece, a 5-inhaul cable, a 6-fixed pulley, a 7-electric driving device, an 8-photovoltaic cell assembly, a 9-driving support, a 10-wheel shaft, an 11-positioning hole, a 12-bolt, a 13-rigid rod, a 14-sliding block, a 15-rolling shaft, a 16-pulley and a 17-limiter are arranged.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present invention more apparent, the present invention is described below by means of specific embodiments shown in the accompanying drawings. It should be understood that the description is only illustrative and is not intended to limit the scope of the invention. In addition, in the following description, descriptions of well-known structures and techniques are omitted so as not to unnecessarily obscure the present invention.

The connection mentioned in the invention is divided into a fixed connection and a detachable connection, wherein the fixed connection is a conventional fixed connection mode such as a non-detachable connection including but not limited to a hemmed connection, a rivet connection, an adhesive connection, a welded connection and the like, the detachable connection is a conventional detachable mode such as a threaded connection, a snap connection, a pin connection, a hinge connection and the like, and when a specific connection mode is not limited explicitly, at least one connection mode can be found in the conventional connection mode by default, so that the function can be realized, and a person skilled in the art can select the device according to needs. For example: the fixed connection is welded connection, and the detachable connection is hinged connection.

The first embodiment is as follows: referring to fig. 1-5, a photovoltaic cell assembly fixed-point unidirectional serial sliding installation tool in this embodiment is described, and the photovoltaic cell assembly fixed-point unidirectional serial sliding installation tool comprises a bracket 1, a sliding rail 2, sliding blocks 3, a connecting piece 4, a guy cable 5, fixed pulleys 6 and an electric driving device 7, wherein the sliding rail 2 is installed at the top of the bracket 1, a plurality of sliding blocks 3 are slidably arranged above the sliding rail 2, connection is established between every two adjacent sliding blocks 3 through the connecting piece 4, a photovoltaic cell assembly 8 is installed on the sliding blocks 3, connection is established between the connecting piece 4 and one side of the guy cable 5, and connection is established between the other side of the guy cable 5 and the electric driving device 7 through the fixed pulleys 6. And the two adjacent sliding blocks 3 are connected through the rigid rod 13, so that the photovoltaic cell assembly 8 is prevented from being broken in the fixed-point unidirectional serial installation process.

The sliding rails 2 are at least two and are arranged on the top of the bracket 1 in parallel.

The slide rail 2 is a purline, the purline prepared by channel steel is in sliding fit with the sliding block 3, and is used for supporting and guiding the sliding of the sliding block 3, so that the slide rail is suitable for quickly mounting the photovoltaic cell assembly 8 in the Sha Ge barren area, meanwhile, the consumption of manpower resources is reduced, the channel steel with the same size can save materials relative to square steel pipes, and the mechanical property of the materials is maximized.

The guy rope 5 is a high-strength polyester fiber rope, has light weight and good wear resistance, has high resistance to ultraviolet rays, and is suitable for being used in severe conditions such as Sha Ge barren areas.

Lubricating oil is added between the sliding rail 2 and the sliding block 3, so that friction between the sliding rail 2 and the sliding block 3 can be further reduced, and energy consumption of the electric driving device is reduced to the greatest extent.

Be provided with buckling structures on the connecting piece 4, two adjacent connecting pieces 4 are connected through buckling structures's quick lock, buckling structures can be buckle, sleeve, spliced pole etc. can realize quick buckled's connection structure.

The electric drive device 7 comprises a motor, a drive support frame 9 and an axle 10, the drive support frame 9 is used for fixing the electric drive device 7 on the ground, the axle 10 is rotatably installed on the drive support frame 9, the axle 10 is connected with the output end of the motor, the output end of the motor can drive the axle 10 to rotate, so that the pulling and releasing of the inhaul cable 5 are realized, the inhaul cable 5 is further realized to drive the sliding block 3 to move on the sliding rail 2, the inhaul cable 5 is wound and installed on the axle, a plurality of positioning holes 11 are formed in the sliding rail 2, the connecting piece 4 is fixedly installed on the positioning holes 11 of the sliding rail 2 through bolts 12, and the bolts 12 are used for fixing the positions of the adjacent connecting pieces 4, so that the installation of the photovoltaic cell assembly 8 is completed. The bottom of the driving support frame 9 is provided with rollers for horizontal transportation. The controller is used for controlling the starting, stopping and rotating speed of the motor, and the controller is used for controlling the motor to further control the sliding speed of the photovoltaic battery assembly 8 and the retracting length of the inhaul cable 5.

The two ends on the sliding rail 2 are provided with limiters 17, and the limiters 17 are made of rubber and have a certain damping function and are used for limiting the sliding range of the sliding block 3 on the sliding rail 2. The sliding block 3 and the connecting piece 4 are fixedly connected and integrally manufactured in a factory.

The second embodiment is as follows: referring to fig. 1 to 6, a photovoltaic cell assembly fixed-point unidirectional serial sliding installation tool of the present embodiment is described, and the photovoltaic cell assembly fixed-point unidirectional serial sliding installation tool comprises a bracket 1, a sliding rail 2, sliding blocks 3, a connecting piece 4, a guy cable 5, fixed pulleys 6 and an electric driving device 7, wherein the sliding rail 2 is installed at the top of the bracket 1, a plurality of sliding blocks 3 are slidably arranged above the sliding rail 2, connection is established between every two adjacent sliding blocks 3 through the connecting piece 4, a photovoltaic cell assembly 8 is installed on the sliding blocks 3, connection is established between the connecting piece 4 and one side of the guy cable 5, and connection is established between the other side of the guy cable 5 through the fixed pulleys 6 and the electric driving device 7. The two adjacent sliding blocks 3 are connected through a rigid rod 13, and the fixed pulley 6 is rotatably arranged on one side of the sliding rail 2 through a rotating bracket.

The number of the sliding rails 2 is at least two, and the sliding rails 2 are arranged on the top of the bracket 1 in parallel, as shown in fig. 1, and the sliding rails 2 in this embodiment are two and are respectively arranged on the front side and the rear side of the bracket 1.

The support includes stand and crossbeam, and a plurality of stands set up to two rows of parallels, and two rows of stands pass through crossbeam fixed connection around, and two slide rails 2 are installed respectively at two rows of stand tops around.

The slide rail 2, the stand column and the cross beam are all channel steel, the channel steel is made of low alloy steel, the channel steel has higher strength and toughness, the channel steel is suitable for special environments such as high temperature, high pressure and low temperature, the slide block 3 and the connecting piece 4 are made of low alloy steel, the uniform material is convenient for factory prefabrication, the material can better resist the erosion of sand blown by wind, and the service life of the slide block type photovoltaic module is prolonged.

The slide rail 2 is a purlin, and the purlin and the slider 3 sliding fit of channel-section steel preparation are used for supporting and guiding the slip of slider 3, the opening orientation front side or the rear side of purlin, as shown in fig. 4, the opening orientation of the purlin of this embodiment is towards the front side. The guy rope 5 is a high-strength polyester fiber rope, has light weight and good wear resistance, has high resistance to ultraviolet rays, and is suitable for being used in severe conditions such as Sha Ge barren areas.

The sliding block 3 comprises a sliding frame 14, a rolling shaft 15 and a pulley 16, the front side of the sliding frame 14 penetrates into the purlin from the opening of the purlin, sliding connection is established between the sliding frame 14 and the sliding frame, the rear side of the sliding frame 14 is in sliding connection with the rear side wall of the purlin through the pulley 16, sliding connection is established between the middle part of the sliding frame 14 and the top of the purlin through the rolling shaft 15, and sliding connection is established between the sliding frame 14 and the sliding rail 2 through the rolling shaft 15 and the pulley 16.

The top of the carriage 14 is an inclined plane, the photovoltaic cell assembly 8 is arranged on the inclined plane, the inclined angle range of the inclined plane is 10-40 degrees, and an anti-skid and anti-collision pad is arranged between the inclined plane and the photovoltaic cell assembly 8.

Be provided with buckling structures on the connecting piece 4, two adjacent connecting pieces 4 are connected through buckling structures's quick lock, buckling structures can be for buckle, sleeve, spliced pole etc. can realize quick buckled connection structure, and this embodiment is as shown in fig. 5, provides a sleeve quick buckling structures, and the through-hole at sleeve middle part still can be used to mounting bolt 12 after the lock to realize photovoltaic cell assembly 8's quick installation.

The electric drive device 7 comprises a motor, a drive support frame 9 and an axle 10, the drive support frame 9 is used for fixing the electric drive device 7 on the ground, the axle 10 is rotatably installed on the drive support frame 9, the axle 10 is connected with the output end of the motor, the output end of the motor can drive the axle 10 to rotate, so that the pulling and releasing of the inhaul cable 5 are realized, the inhaul cable 5 is further realized to drive the sliding block 3 to move on the sliding rail 2, the inhaul cable 5 is wound and installed on the axle, a plurality of positioning holes 11 are formed in the sliding rail 2, the connecting piece 4 is fixedly installed on the positioning holes 11 of the sliding rail 2 through bolts 12, and the bolts 12 are used for fixing the positions of the adjacent connecting pieces 4, so that the installation of the photovoltaic cell assembly 8 is completed. The bottom of the driving support frame 9 is provided with rollers for horizontal transportation. The sliding speed of the photovoltaic battery assembly 8 and the retracting length of the inhaul cable 5 are further controlled by controlling the motor through the controller.

The cable 5 is provided with two at least, and the cable 5 of this embodiment is provided with two, and correspondingly, fixed pulley 6 also is provided with two, and two cables 5 correspond respectively and set up in two slide rails 2 top around, and slide rail 2 one side is provided with fixed pulley 6, and two cables 5 are all twined on shaft 10 after through corresponding fixed pulley 6.

Two ends of the sliding rail 2 are provided with limiters 17 for limiting the sliding range of the sliding block 3 on the sliding rail 2.

The sliding block 3, the connecting piece 4, the photovoltaic cell component 8 and the rigid rod 13 are fixedly connected, and can be integrally manufactured in a factory based on the design of an assembly type concept.

And a third specific embodiment: referring to fig. 1 to 6, a fixed-point unidirectional serial sliding installation tool for a photovoltaic cell assembly according to the first or second embodiment is described, and the fixed-point unidirectional serial sliding installation method for a photovoltaic cell assembly according to the present embodiment includes the following steps:

step one, according to the design and installation requirements of the Sha Ge barren area, prefabricating and forming a bracket 1, a sliding rail 2, a sliding block 3, a connecting piece 4, a guy rope 5, a fixed pulley 6 and an electric driving device 7 in respective factories, and installing the sliding rail 2 on the bracket 1 in advance to ensure that the sliding rail 2 is flat and fixed on the bracket 1 so as to facilitate the sliding installation of a subsequent photovoltaic cell assembly 8;

step two, a first sliding block 3 is arranged on the sliding rail 2, and a first connecting piece 4 is arranged on one side of the sliding block;

step three, installing an electric driving device 7 at one end of the sliding rail 2, winding one end of a guy cable 5 on a wheel shaft 10 of the electric driving device 7, and connecting the other end of the guy cable with the first connecting piece 4 after passing through the fixed pulley 5;

step four, starting a motor of the electric driving device 7, and driving the retraction and extension of the inhaul cable 5 through the wheel shaft 10 so as to control the sliding speed and the sliding direction of the photovoltaic cell assembly 8; the first sliding block 3 slides forwards along the sliding rail 2 and is installed in a fixed-point unidirectional serial sliding way along the way;

fifthly, the fixed-point unidirectional serial sliding installation is that a plurality of sliding blocks 3 are sequentially placed on the sliding rail 2, connection is established between the adjacent sliding blocks 3 through the connecting piece 4, and a photovoltaic cell assembly 8 is installed at the top of each sliding block 3;

and step six, after the photovoltaic cell assembly 8 reaches the installation position, fixing the connecting piece 4 at the positioning hole 11 of the sliding rail 2 by using the bolt 12, so as to ensure the position accuracy and stability of the photovoltaic cell assembly 8.

Step five includes that the one end and the slider 3 of ith connecting piece 4 link to each other, and the other end is equipped with buckling structure for with the (i+1) th connecting piece 4 lock be connected to fix the locating hole 11 department at slide rail 2 with connecting piece 4 after the lock through bolt 12, realize photovoltaic cell assembly 8's quick installation, effectively reduce manpower resources input, the quick installation of large-scale photovoltaic cell assembly under the adverse condition such as more being applicable to "Sha Ge barren" area has very high practical value.

The invention provides a fixed-point unidirectional serial sliding installation machine tool and a fixed-point unidirectional serial sliding installation method for a photovoltaic cell assembly, which have the advantages of high efficiency, high speed, reliability, strong adaptability and the like. The sliding block type photovoltaic module and the electric driving device are adopted, fixed-point unidirectional serial sliding installation of the photovoltaic module is realized, the problem that stress damage is caused to the photovoltaic module due to vibration, swing and other factors in a traditional installation method is avoided, the installation efficiency is greatly improved, and the method is suitable for complex geographical environments in areas such as Sha Gehuang. Compared with the traditional manual installation method, the invention can obviously reduce the installation time and the manpower resource investment. The position of the photovoltaic module can be accurately controlled by the arrangement of the positioning bolt holes and the matching of other auxiliary components, so that the installation quality is ensured. The technology plays an important role in the construction of large-scale wind-driven photovoltaic bases in Sha Ge barren areas and the like, and the adoption of the machine and the installation method is beneficial to the promotion of the wide application of photovoltaic cell technology and makes positive contribution to the development of renewable energy industry.

It should be noted that, in the above embodiments, as long as the technical solutions that are not contradictory can be arranged and combined, those skilled in the art can exhaust all the possibilities according to the mathematical knowledge of the arrangement and combination, so the present invention does not describe the technical solutions after the arrangement and combination one by one, but should be understood that the technical solutions after the arrangement and combination have been disclosed by the present invention.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A photovoltaic cell subassembly fixed point one-way series connection slip installation machines, its characterized in that: including support (1), slide rail (2), slider (3), connecting piece (4), cable (5), fixed pulley (6) and electric drive device (7), slide rail (2) are installed at support (1) top, slide rail (2) top slip is provided with a plurality of sliders (3), establish through connecting piece (4) between every adjacent two sliders (3), install photovoltaic cell module (8) on slider (3), connecting piece (4) establish with cable (5) one side and are connected, and cable (5) opposite side passes through fixed pulley (6) and electric drive device (7) establish connection.

2. The fixed point unidirectional serial sliding mounting machine for photovoltaic cell assemblies as set forth in claim 1, wherein: the sliding rails (2) are at least two, and are arranged on the top of the bracket (1) in parallel.

3. The fixed point unidirectional serial sliding mounting machine for photovoltaic cell assemblies as set forth in claim 1, wherein: the electric driving device (7) comprises a motor, a driving support frame (9) and an axle (10), the axle (10) is rotatably arranged on the driving support frame (9), the axle (10) is connected with the output end of the motor, and the inhaul cable (5) is wound on the axle (10).

4. The fixed point unidirectional serial sliding mounting machine for photovoltaic cell assemblies as set forth in claim 1, wherein: a plurality of positioning holes (11) are formed in the sliding rail (2), and the connecting piece (4) is fixedly installed on the positioning holes (11) of the sliding rail (2) through bolts (12).

5. The fixed point unidirectional serial sliding mounting machine for photovoltaic cell assemblies according to any one of claims 1 to 4, wherein: the sliding rail (2) is a purline, and the purline prepared from channel steel is in sliding fit with the sliding block (3).

6. The fixed point unidirectional serial sliding mounting machine for photovoltaic cell assemblies as set forth in claim 1, wherein: and the two adjacent sliding blocks (3) are also connected through a rigid rod (13).

7. The fixed point unidirectional serial sliding mounting machine for photovoltaic cell assemblies as set forth in claim 1, wherein: the inhaul cable (5) is at least provided with two inhaul cables.

8. A photovoltaic cell module fixed point unidirectional serial sliding mounting machine as claimed in claim 3, wherein: the bottom of the driving support frame (9) is provided with rollers.

9. The fixed point unidirectional serial sliding mounting machine for photovoltaic cell assemblies as set forth in claim 4, wherein: and a limiter (17) is arranged on the sliding rail (2).

10. The fixed-point unidirectional serial sliding installation method of the photovoltaic battery assembly is realized by the fixed-point unidirectional serial sliding installation machine tool of the photovoltaic battery assembly according to claim 9, and is characterized by comprising the following steps:

step one, prefabricating and forming a bracket (1), a sliding rail (2), a sliding block (3), a connecting piece (4), a guy cable (5), a fixed pulley (6) and an electric driving device (7) in respective factories, and installing the sliding rail (2) on the bracket (1) in advance to ensure that the sliding rail (2) is flat and fixed on the bracket (1) so as to facilitate the sliding installation of a follow-up photovoltaic cell assembly (8);

step two, a first sliding block (3) is arranged on the sliding rail (2), and a first connecting piece (4) is arranged on one side of the sliding block;

step three, installing an electric driving device (7) at one end of the sliding rail (2), winding one end of a guy cable (5) on a wheel shaft (10) of the electric driving device (7), and connecting the other end of the guy cable with a first connecting piece (4) after passing through a fixed pulley (5);

step four, starting a motor of the electric driving device (7), and driving the retraction and extension of the inhaul cable (5) through the wheel shaft (10), so as to control the sliding speed and the sliding direction of the photovoltaic cell assembly (8); the first sliding block (3) slides forwards along the sliding rail (2) and is installed in a fixed-point unidirectional serial sliding way along the way;

fifthly, the fixed-point unidirectional serial sliding installation is that a plurality of sliding blocks (3) are sequentially placed on a sliding rail (2), connection is established between the adjacent sliding blocks (3) through a connecting piece (4), and a photovoltaic cell assembly (8) is installed at the top of each sliding block (3);

and step six, after the photovoltaic cell assembly (8) reaches the installation position, fixing the connecting piece (4) at the positioning hole (11) of the sliding rail (2) by using the bolt (12), so as to ensure the position accuracy and stability of the photovoltaic cell assembly (8).