CN106712677B

CN106712677B - Photovoltaic module mounting system with adjustable dip angle

Info

Publication number: CN106712677B
Application number: CN201710051371.6A
Authority: CN
Inventors: 卢川; 陈玉玺; 胡涛; 田娜; 李盼盼; 邢伟松
Original assignee: JULI NEW ENERGY CO Ltd
Current assignee: JULI NEW ENERGY CO Ltd
Priority date: 2017-01-23
Filing date: 2017-01-23
Publication date: 2024-04-09
Anticipated expiration: 2037-01-23
Also published as: CN106712677A

Abstract

The invention discloses a photovoltaic module installation system with an adjustable dip angle, which comprises an adjusting executing mechanism and a photovoltaic module installation square matrix, wherein the photovoltaic module installation square matrix comprises more than one group of photovoltaic modules each consisting of two basic units; each connecting cable is fixed with a metal pipe at equal intervals, two ends of each connecting cable are hinged and fixed on the supporting frame through the spiral tensioning device, and one end of each lock catch is fixed on the metal pipe; four corners of each photovoltaic module are respectively hinged and fixed on the other end of the lock catch through connecting pieces fixed on the four corners of each photovoltaic module; the upper and lower ends of the support frame are respectively hinged and fixed at the two ends of the same rotary rope supported by the vertical pulleys, one end of each horizontal traction rope is fixed on each connecting rope at the upper end or the upper end of each support frame, the other end of each horizontal traction rope bypasses the corresponding horizontal pulley and is fixed on the left or right traction rope, and the left and right traction ropes are pulled by the traction machine. The invention can conveniently adjust the angle of the photovoltaic module for receiving sunlight according to the irradiation of the sunlight in winter or summer whether the photovoltaic module is horizontally installed or obliquely installed.

Description

Photovoltaic module mounting system with adjustable dip angle

Technical Field

The invention belongs to the field of solar photovoltaic power generation, and relates to a photovoltaic module installation system with an adjustable inclination angle.

Background

The solar photovoltaic power generation system is generally installed by using a fixed support, a metal framework with a triangular structure is manufactured below a photovoltaic module, the inclined plane and the inclined angle of the metal framework are kept opposite to the irradiation direction of sunlight, the photovoltaic module is fixed on the inclined plane of the support by using bolts and then fixed on the ground, the method is simple and easy to design and install, but the angle of the fixed support cannot be moved along with the change of the position of the sun, the maximum irradiation amount cannot be obtained at any moment, the conversion efficiency is seriously influenced, and the generated energy is reduced. Therefore, the invention discloses a photovoltaic module installation system with an adjustable inclination angle, which aims to improve the generated energy and is an urgent problem to be solved at present.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provide the inclination-angle-adjustable photovoltaic module installation system which can conveniently adjust the angle of the photovoltaic module for receiving sunlight according to the irradiation of the sunlight in winter or summer to obtain the maximum irradiation amount so as to improve the generated energy, regardless of horizontal installation or inclined installation.

In order to accomplish the above object, the technical solution of the present invention is: a photovoltaic module installation system with adjustable dip angle comprises an adjusting executing mechanism and a photovoltaic module installation matrix, wherein the photovoltaic module installation matrix comprises more than one group of photovoltaic module installation matrixes each consisting of two basic units; a plurality of photovoltaic modules are fixed on each group of basic units;

the two basic units of each group have the same structure and comprise an upper connecting rope, a lower connecting rope, a plurality of catches, four spiral tensioning devices, two supporting frames, two rotary ropes, a bracket and pulleys; each connecting cable is fixed with a metal pipe at equal intervals, two ends of each connecting cable are hinged and fixed on corresponding supporting frames through a spiral tensioning device, and one end of each lock catch is fixed on the metal pipe; four corners of each photovoltaic module are respectively hinged and fixed on the other ends of the lock catches on the four connecting ropes through connecting pieces fixed on the four corners of each photovoltaic module; the upper end and the lower end of the support frame are respectively hinged and fixed at two ends of the same rotary rope supported by the vertical pulleys, the vertical pulleys are hinged at the upper end of the support A, the support A is fixed on the ground, and the upper end of the support A is fixed on the ground at the outer side by a tensioning rope in a diagonal manner;

the adjusting executing mechanism comprises a plurality of horizontal traction ropes, a left traction rope, a right traction rope and a traction machine; one end of each horizontal traction rope is fixed on each corresponding connecting rope at the upper end or the upper end of each corresponding supporting frame, the other end of each horizontal traction rope bypasses the corresponding horizontal pulley and is fixed on the left or right traction rope, and each horizontal pulley is hinged at the upper end of a bracket B fixed on the ground; one end of the left traction rope and one end of the right traction rope are wound on a reel hinged to the upper end of the bracket C, and the other end of the left traction rope and the right traction rope are fixed on the traction machine; the tractor is fixed on the bracket D.

Further preferably, the connecting pieces at two corners at the upper end and the connecting pieces at two corners at the lower end of each photovoltaic module are respectively hinged through two connecting rods. Further guarantee that photovoltaic module upper end two angles and lower extreme two angles synchronous motion.

Further preferably, the mounting system further comprises one or more rows of supporting rollers, each row of supporting rollers is equal to the connecting cables in number, and each row of supporting rollers is uniformly distributed at the lower end of the connecting cable at the lower end; each supporting roller is hinged and fixed at the upper end of a bracket E, and the bracket E is fixed on the ground; the connecting rope at each lower end is lapped at the upper end of the supporting roller. The support rollers provide support force for the connecting cable so that the connecting cable can bear greater weight to meet the requirements for support and larger span of more photovoltaic modules.

Further preferably, the screw tensioning device comprises a hollow screw, a nut, a spring pad and another metal tube; the hollow screw rod penetrates through the end part of the connecting rope and is blocked by another metal pipe fixed on the end part of the connecting rope, and a spring pad is penetrated between the other metal pipe and the screw rod; the two sides of the nut are respectively provided with a convex fixing shaft, and the two fixing shafts are respectively hinged and fixed on the corresponding supporting frames. The spiral tensioning device is simple in structure, high in tensioning reliability and convenient to use, the installation efficiency of the photovoltaic module is further improved, the construction time is shortened, and the cost is reduced.

Further preferably, the lower end of the lock catch is provided with an open slot matched with the metal pipe, two walls of the open slot are provided with fixing holes with central lines on the same horizontal line, and the upper end of the open slot is provided with a connecting hole connected with a connecting piece of the photovoltaic module; the lock catch open slot is clamped and fixed on the metal pipe; the connecting piece of photovoltaic module is fixed in the bottom of hasp open slot by the bolt. The lock catch is simple in structure and convenient to use, the installation efficiency of the photovoltaic module is further improved, the construction time is shortened, and the cost is reduced.

Further preferably, the lock catch consists of an upper connecting piece and a lower connecting piece, the lower end of the upper connecting piece is provided with an open slot A matched with the upper end of the lower connecting piece, two walls of the open slot A are provided with a fixed hole A with the central line on the same horizontal line, and the upper end of the open slot A is a connecting hole connected with the connecting piece of the photovoltaic module; the upper end of the lower connecting piece is provided with a fixing hole B matched with the fixing hole A, the fixing hole A and the fixing hole B are hinged together through a pin shaft, the lower end of the lower connecting piece is provided with an opening groove B matched with the metal pipe, and two walls of the opening groove B are provided with fixing holes with central lines on the same horizontal line; the upper connecting piece is hinged on the connecting piece of the photovoltaic module through a pin shaft, and the lower connecting piece is clamped and fixed on the metal tube. The upper connecting piece and the lower connecting piece of the lock catch can rotate, and the photovoltaic module is more convenient to move.

Further preferably, the tractor is a motor or a hydraulic traction device.

Due to the adoption of the scheme, when the left traction rope is pulled by the traction machine, the right traction rope freely moves, and when the right traction rope is pulled by the traction machine, the left traction rope freely moves. When the traction machine pulls the left or right traction rope, the horizontal traction rope drives the upper ends of the upper end connecting ropes or the support frames to move left or right, the upper ends of the upper end connecting ropes or the support frames push the rotary ropes to rotate along the vertical pulleys, the lower ends of the support frames push the lower end connecting ropes to move right or left, and accordingly the upper ends of the photovoltaic modules are driven to move left or right, the lower ends of the support frames move right or left, the angles of the photovoltaic modules for receiving sunlight are adjusted, and the maximum irradiation quantity is obtained, so that the generating capacity is improved. In a word, the photovoltaic module is installed horizontally on a horizontal plane or is installed obliquely on inclined ground such as a hillside, the angle of the photovoltaic module for receiving sunlight can be conveniently adjusted according to the irradiation of the sunlight in winter or summer, and the maximum irradiation quantity is obtained so as to improve the generated energy. The invention has simple structure, reliable action and convenient operation.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic diagram of the basic unit structure of the present invention;

FIG. 3 is a schematic view of the structure of the connecting cable of the present invention;

FIG. 4 is a front view of a nut of the screw tensioner of the present invention;

FIG. 5 is a left side view of the nut of the screw tensioner of the present invention;

FIG. 6 is a schematic diagram of a connection structure between a photovoltaic module and a connector according to the present invention;

FIG. 7 is a schematic view of a connector according to the present invention;

FIG. 8 is a front view of a first embodiment of a shackle of the present invention;

FIG. 9 is a left side view of a first embodiment of a shackle of the present invention;

FIG. 10 is a front view of a second embodiment of a shackle of the present invention;

FIG. 11 is a left side view of a second embodiment of a shackle of the present invention;

FIG. 12 is a front view of an upper connector of a second embodiment of a latch according to the present invention;

FIG. 13 is a left side view of an upper connector of a second embodiment of a latch according to the present invention;

FIG. 14 is a front view of a lower connector of a second embodiment of a latch according to the present invention;

fig. 15 is a left side view of a lower connector of a second embodiment of a shackle of the present invention.

Detailed Description

The invention is further described below with reference to the drawings and specific examples of implementation.

As shown in fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14 and 15, the present embodiment includes an adjustment actuator and a photovoltaic module mounting matrix including three groups (or one, two, four and five groups as needed) each consisting of two basic units. A plurality of photovoltaic modules 18 are fixed to each group of the base units. The two basic units of each group have the same structure and comprise an upper connecting rope 17, a lower connecting rope 17, a plurality of catches 19, four spiral tensioning devices, two supporting frames 16, two rotary ropes 15, a bracket 11 and a pulley 14. Each connecting cable 17 is fixed with metal tubes at equal intervals, the metal tubes in this embodiment are aluminum tubes 171, and the aluminum tubes 171 are pressed and fixed on the connecting cables 17. Two ends of each connecting rope 17 are hinged and fixed on the corresponding supporting frame 16 through a screw tensioning device, one end of a lock catch 19 is fixed on an aluminum pipe 171, four corners of each photovoltaic module 18 are respectively hinged and fixed on the other ends of the lock catches on the four connecting ropes through connecting pieces 181 fixed on the four connecting ropes through screws, and 1811 is a mounting hole which is formed on the connecting pieces 181 and is fixed with the photovoltaic module. The preferred structure is: the screw tensioner comprises a hollow screw 172, a nut 173, a spring washer 175 and another metal tube: the aluminum pipe 176, the hollow screw 172 wears to be in the tip of connecting rope 17 to keep off the position by pressing another aluminum pipe 176 fixed on the tip of connecting rope 17, wear spring pad 175 between another aluminum pipe 176 and the screw 172, nut 173 both sides are protruding fixed axle 1731 respectively, and two fixed axles 1731 are articulated respectively to be fixed on corresponding support frame 16. The preferable structure is that the lower end of the lock catch 19 is provided with an open slot 93 matched with the aluminum tube 171, two walls of the open slot 93 are provided with a fixed hole 92 with the central line on the same horizontal line, and the upper end of the open slot 93 is a connecting hole connected with a connecting hole 1811 on a connecting piece 181 of the photovoltaic module 18; the lock catch open slot 93 is clamped and fixed on the aluminum tube 171; the connecting piece 181 of the photovoltaic module 18 is fixed at the bottom end of the lock catch opening groove 93 by a bolt; the lock catch 19 has another structure, and is composed of an upper connecting piece 94 and a lower connecting piece 95, wherein the lower end of the upper connecting piece 94 is provided with an open slot A99 matched with the upper end of the lower connecting piece 95, two walls of the open slot A99 are provided with a fixed hole A96 with the central line on the same horizontal line, and the upper end of the open slot A99 is a connecting hole connected with the connecting piece 181 of the photovoltaic module 18; the upper end of the lower connecting piece 95 is provided with a fixing hole B91 matched with the fixing hole A96, the fixing hole A96 and the fixing hole B91 are hinged together through a pin shaft, the lower end of the lower connecting piece 95 is provided with an opening groove B97 matched with the aluminum pipe 171, and two walls of the opening groove B97 are provided with fixing holes 98 with central lines on the same horizontal line; the upper connecting piece 94 is hinged on a connecting hole 1812 formed on the connecting piece of the photovoltaic module by a pin shaft, and the lower connecting piece 95 is clamped and fixed on the aluminum tube 171. The upper and lower ends of the support frame 16 are respectively hinged and fixed at two ends of the same rotary rope 15 supported by the vertical pulley 14, the vertical pulley 14 is hinged at the upper end of the support A11, the support A11 is fixed on the ground, the upper end of the support A11 is fixed on the ground at the outer side in a diagonal manner by the tensioning rope 15, and the support A11 is a ground anchor. The adjusting executing mechanism comprises a plurality of horizontal traction ropes 5, a left traction rope 3, a right traction rope 7 and a traction machine 8; one end of each horizontal traction rope 5 is fixed on each corresponding connecting rope 17 at the upper end (or the upper end of each corresponding supporting frame 16), the other end of each horizontal traction rope bypasses the corresponding horizontal pulley 4 and is fixed on the left or right traction rope 3 or 7, and each horizontal pulley 5 is hinged at the upper end of a bracket B fixed on the ground; one end of the left traction rope 3 or the right traction rope 7 is wound on a reel hinged to the upper end of the bracket C, and the other end of the left traction rope and the right traction rope are fixed on the traction machine 8; the tractor 8 is fixed on the bracket D.

In order to further ensure that the two corners at the upper end and the two corners at the lower end of the photovoltaic modules move synchronously, it is further preferable that the connecting pieces 181 at the two corners at the upper end and the connecting pieces 181 at the two corners at the lower end of each photovoltaic module 18 are respectively hinged by two connecting rods 20.

Further preferably, in order that the connecting cable can carry a greater weight, the mounting system further comprises a row (or a plurality of rows) of 6 support rollers 6, each row of support rollers 6 being uniformly distributed at the lower end of the connecting cable 17 at the lower end; each supporting roller 6 is hinged and fixed at the upper end of a bracket E1, and the bracket E1 is fixed on the ground. The connecting rope 17 at each lower end is lapped on the upper end of the supporting roller 6.

There are, of course, many other examples of the invention that could be made by those skilled in the art without departing from the spirit and substance of the invention, and that such modifications and variations would be within the scope of the invention as defined in the following claims.

Claims

1. An inclination-adjustable photovoltaic module mounting system is characterized in that: the device comprises an adjusting executing mechanism and more than one group of photovoltaic module installation matrixes, wherein each group of photovoltaic module installation matrixes consists of two basic units; a plurality of photovoltaic modules are fixed on each group of basic units;

the two basic units of each group have the same structure and comprise an upper connecting rope, a lower connecting rope, a lock catch, four spiral tensioning devices, two supporting frames, two rotary ropes, a bracket and pulleys; each connecting cable is fixed with a metal pipe at equal intervals, two ends of each connecting cable are hinged and fixed on corresponding supporting frames through a spiral tensioning device, and one end of each lock catch is fixed on the metal pipe; four corners of each photovoltaic module are respectively hinged and fixed on the other ends of the lock catches on the four connecting ropes through connecting pieces fixed on the four corners of each photovoltaic module; the upper end and the lower end of the support frame are respectively hinged and fixed at two ends of the same rotary rope supported by the vertical pulleys, the vertical pulleys are hinged at the upper end of the support A, the support A is fixed on the ground, and the upper end of the support A is fixed on the ground at the outer side by a tensioning rope in a diagonal manner;

the adjusting executing mechanism comprises a plurality of horizontal traction ropes, a left traction rope, a right traction rope and a traction machine; one end of each horizontal traction rope is fixed on each corresponding connecting rope at the upper end or the upper end of each corresponding supporting frame, the other end of each horizontal traction rope bypasses the corresponding horizontal pulley and is fixed on the left or right traction rope, and each horizontal pulley is hinged at the upper end of a bracket B fixed on the ground; one end of the left traction rope and one end of the right traction rope are wound on a reel hinged to the upper end of the bracket C, and the other end of the left traction rope and the right traction rope are fixed on the traction machine; the tractor is fixed on the bracket D;

the lower end of the lock catch is provided with an open slot matched with the metal pipe, two walls of the open slot are provided with fixing holes with central lines on the same horizontal line, the upper end of the open slot is provided with a connecting hole connected with a connecting piece of the photovoltaic module, the metal pipe is provided with a fixing hole matched with the fixing hole on the lock catch, the lock catch open slot is clamped and fixed on the metal pipe, and the connecting piece of the photovoltaic module is fixed at the bottom end of the lock catch open slot by a bolt; or the lock catch consists of an upper connecting piece and a lower connecting piece, the lower end of the upper connecting piece is provided with an opening groove A matched with the upper end of the lower connecting piece, two walls of the opening groove A are provided with a fixing hole A with the central line on the same horizontal line, the upper end of the opening groove A is a connecting hole connected with a connecting piece of the photovoltaic module, the upper end of the lower connecting piece is provided with a fixing hole B matched with the fixing hole A, the fixing hole A and the fixing hole B are hinged together through a pin shaft, the lower end of the lower connecting piece is provided with an opening groove B matched with the metal pipe, two walls of the opening groove B are provided with fixing holes with the central line on the same horizontal line, the upper connecting piece is hinged on the connecting piece of the photovoltaic module through a pin shaft, and the lower connecting piece is clamped and fixed on the metal pipe;

the spiral tensioning device comprises a hollow screw rod, a nut, a spring pad and another metal tube; the hollow screw rod penetrates through the end part of the connecting rope and is blocked by another metal pipe fixed on the end part of the connecting rope, and a spring pad is penetrated between the other metal pipe and the screw rod; the two sides of the nut are respectively provided with a convex fixing shaft, and the two fixing shafts are respectively hinged and fixed on the corresponding supporting frames.

2. The adjustable tilt photovoltaic module mounting system of claim 1, wherein: the connecting pieces at two corners at the upper end of each photovoltaic module and the connecting pieces at two corners at the lower end of each photovoltaic module are respectively hinged through two connecting rods.

3. The adjustable tilt photovoltaic module mounting system of claim 1 or 2, wherein: the mounting system further comprises one or more rows of supporting rollers, the number of each row of supporting rollers is the same as that of the connecting cables, and the supporting rollers of each row are uniformly distributed at the lower end of the connecting cables at the lower end; each supporting roller is hinged and fixed at the upper end of a bracket E, and the bracket E is fixed on the ground; the connecting rope at each lower end is lapped at the upper end of the supporting roller.

4. The adjustable tilt photovoltaic module mounting system of claim 3, wherein: the tractor is a motor or a hydraulic traction device.

5. The adjustable tilt photovoltaic module mounting system of claim 1 or 2, wherein: the tractor is a motor or a hydraulic traction device.