CN108736818B

CN108736818B - Strong wind resistant solar cell module

Info

Publication number: CN108736818B
Application number: CN201810755839.4A
Authority: CN
Inventors: 张磊; 张京枝; 佘宗霞
Original assignee: Benya Technology Group Co ltd
Current assignee: Benya Technology Group Co ltd
Priority date: 2018-07-11
Filing date: 2018-07-11
Publication date: 2020-06-05
Anticipated expiration: 2038-07-11
Also published as: CN108736818A

Abstract

The invention discloses a strong wind resistant solar cell module, which comprises a controller, a substrate, an accommodating box, an electric telescopic rod, a winding device, a driving motor and a bearing plate, first solar cell panel, second solar cell panel and banding installation piece hold case and bag and include bottom plate, roof, first curb plate, second curb plate, third curb plate and division board, and division board top and below have first solar cell and second solar cell panel respectively, and first solar cell panel installs on the loading board, and electric telescopic handle has two, two electric telescopic handle's bottom all with the base plate is fixed, and the equal fixed connection in banding installation piece and two electric telescopic handle's top installs first fixed pulley on the installation piece, and driving motor is used for the drive coiling mechanism is connected with the strap between loading board and the coiling mechanism, and the strap passes through first fixed pulley. The solar panel has the first state and the second state and can resist strong wind.

Description

Strong wind resistant solar cell module

Technical Field

The invention relates to the field of photovoltaics, in particular to a strong wind resistant solar cell module.

Background

With the exhaustion of traditional energy sources and the pollution problem caused by the traditional energy sources, new energy sources are more and more widely used, such as solar energy, wind energy and other new street energy sources. Solar power generation usually uses large-scale solar panels with large area to realize high-efficiency power generation in places with good sunshine conditions. But large area solar panels are installed in areas with strong wind. The mounting of rigid solar panels can result in damage in high wind environments.

Disclosure of Invention

The purpose of the invention is as follows: the invention aims to overcome the defects of the prior art and provides a strong wind resistant solar cell module.

The technical scheme is as follows: a solar cell module comprises a controller, a base plate, a containing box, an electric telescopic rod, a winding device, a driving motor, a bearing plate, a first solar cell panel, a second solar cell panel and a strip-shaped mounting block, wherein the containing box is in a cuboid shape and comprises a bottom plate, a top plate, a first side plate, a second side plate and a third side plate, the first side plate and the second side plate are opposite, one side of the containing box opposite to the third side plate is open, a partition plate parallel to the top plate and the bottom plate is further arranged in the containing box, the partition plate divides the space in the containing box into an upper space and a lower space, two fixing blocks are fixed in the upper space and connected with the top plate and the partition plate, a sliding rod is connected between each fixing block and the third side plate, the two sliding rods are parallel to each other, the first solar cell panel is fixed on the upper surface of the bearing plate, the bearing plate is fixedly connected with two sliding blocks, the two sliding blocks are positioned on two sides of the bearing plate, each sliding block is penetrated by one sliding rod and can slide along the sliding rod, a first spring is sleeved on each sliding rod, one end of each first spring is fixedly connected with the corresponding sliding block, the other end of each first spring is fixedly connected with the corresponding third side plate, the top plate and the corresponding partition plate are both made of transparent materials, and one side, close to the corresponding third side plate, of the bottom plate is hinged to the corresponding base plate; electric telescopic handle has two, two electric telescopic handle's bottom all with the base plate is fixed, the equal fixed connection in banding installation piece and two electric telescopic handle's top, install first fixed pulley on the installation piece, driving motor is used for the drive coiling mechanism, the loading board is kept away from one side of third curb plate with be connected with the strap between the coiling mechanism, the strap process first fixed pulley.

Furthermore, two parallel insertion rods are fixed on one side, away from the third side plate, of the bearing plate, the end, away from the bearing plate, of each insertion rod is hemispherical, two parallel cylinder portions are fixed on the mounting block, each cylinder portion is provided with a horn-shaped first insertion hole and a cylindrical second insertion hole connected with the first insertion hole, the first insertion hole is farther away from the mounting block relative to the second insertion hole, the large opening end of the first insertion hole is farther away from the mounting block relative to the small opening end, and the closed end of the second insertion hole is provided with a second pressure sensor; the base plate is provided with a first groove and a second groove, a first pressure sensor is installed in the first groove, the stress surface of the first pressure sensor is connected with a movable plate through a second spring, a strip-shaped iron block is fixed on one side, away from the third side plate, of the bottom plate, and an electromagnet part is installed in the second groove; the driving motor, the electromagnet part, the first pressure sensor and the second pressure sensor are all connected with the controller, the controller can control the solar cell module to be in a first state and a second state, in the first state, the bottom plate presses the movable plate, the measurement value of the first pressure sensor is larger than a first threshold value, the electromagnet part is opened to attract the strip-shaped iron block, the first spring is in a first length, the driving motor is in a locking state, and the electric telescopic rod is in a shortest state; in the second state, the electromagnet part is in a closed state, each inserted link is inserted into one cylinder part and abuts against one second pressure sensor, the measured values of the two second pressure sensors are both greater than a second threshold value, the first spring is in a second length, the driving motor is in a locked state, and the electric telescopic rod is in a longest state; the second length is greater than the first length.

Furthermore, an inverted L-shaped mounting bracket is fixed on the base plate and comprises a vertical plate connected with the base plate and a transverse plate connected with the vertical plate, a second fixed pulley is mounted at the end part of the transverse plate, the cloth belt passes through the second fixed pulley, an image acquisition device is mounted on one side, facing the cloth belt, of the vertical plate, and a first identification mark and a second identification mark are arranged on the cloth belt; when the solar cell module is in a first state, the image acquisition device can acquire the first identification mark, and when the solar cell module is in a second state, the image acquisition device can acquire the second identification mark; the controller is capable of controlling the solar cell module to perform a first conversion operation and a second conversion operation;

the first converting operation is for converting the solar cell assembly from a first state to a second state, comprising the steps of: 1) closing the electromagnet part; 2) the electric telescopic rod is switched from the shortest state to the longest state; 3) the driving motor is used for rotating the winding cloth belt in the first direction until the measured values of the two second pressure sensors are both larger than a second threshold value and the image acquisition device acquires a second identification mark, and the driving motor is locked;

the second conversion operation is for converting the solar cell module from the second state to the first state, and includes the steps of: 1) turning on the electromagnet part; 2) rotating the cloth releasing belt in the second direction by using the driving motor until the measurement value of the first pressure sensor is greater than a first threshold value, and locking the driving motor; 3) the electric telescopic rod is switched from the longest state to the shortest state; 4) the driving motor is enabled to rotate towards the first direction to roll up the cloth belt until the image acquisition device acquires the first identification mark, and the motor is locked.

Further, the image acquisition device is a CMOS image acquisition device.

Further, the wireless communication unit connected with the controller is further included.

Further, the width of the cloth belt is more than 20 cm.

Further, both the two cylinder parts and the mounting block are welded and fixed.

Further, when the solar cell module is in the second state, each sliding block abuts against one fixed block respectively.

Further, the inserted rod comprises a cylindrical part and a hemispherical part positioned at the end part of the cylindrical part, and the diameter of the cylindrical part of the inserted rod is 1-2mm smaller than that of the second insertion hole; the small opening end of the first jack is circular, and the diameter of the small opening end of the first jack is equal to that of the second jack; the large-opening end of the first jack is circular, and the diameter of the large-opening end of the first jack is 2.5 times larger than that of the small-opening end.

Has the advantages that: according to the solar cell module, the solar cell module can be in the first state or the second state, and the accommodating part is laid down when the solar cell module is in the first state, so that the solar cell module can resist strong wind. When the solar cell panel is in the second state, the first solar cell panel and the second solar cell panel are exposed, and the angles of the first solar cell panel and the second solar cell panel are inclined, so that the maximum power generation efficiency is achieved.

Drawings

FIG. 1 is a schematic view of a solar cell module in a first state;

FIG. 2 is a schematic view of a solar cell module in a second state;

FIG. 3 is an enlarged view of area A;

FIG. 4 is a schematic view of two electric telescopic rods, two barrel sections and a mounting block; a

Fig. 5 is a schematic view of a cloth belt.

Detailed Description

Reference numerals: 1 a substrate; 1.1 a first pressure sensor; 1.2 a second spring; 1.3 movable plates; 1.4 a second groove; 1.5 an electromagnet part; 2.1 a winding device; 2.2 an inverted L-shaped bracket; 2.3 a second fixed pulley; 2.4 electric telescopic rod; 2.5 an image acquisition device; 3, cloth belts; 3.1 a first identifying mark; 3.2 second identification mark; 4 a containing box; 4.1 the headspace; 4.2 lower space; 4.2.1 a second solar panel; 4.3 a slide bar; 4.4 fixing blocks; 4.5 a first spring; 4.6 strip-shaped iron blocks; 5, carrying a plate; 5.1 a slide block; 5.2 a first solar panel; 5.3 inserting the rod; 6.1 mounting blocks; 6.2 a barrel part; 6.2.1 first jack; 6.2.2 second jack; 6.2.3 first pressure sensor; 6.3 a first fixed pulley; 10.1 a top plate; 10.2 a base plate; 10.3 a third side panel; 10.4 separating the plates.

A solar cell module comprises a controller, a base plate 1, a containing box 4, an electric telescopic rod 2.4, a winding device 2.1, a driving motor, a bearing plate 5, a first solar cell panel 5.2, a second solar cell panel 4.2.1 and a strip-shaped mounting block 6.1, wherein the containing box is cuboid, the containing box comprises a bottom plate 10.2, a top plate 10.1, a first side plate, a second side plate and a third side plate 10.3, the first side plate and the second side plate are opposite, one side of the containing box opposite to the third side plate is open, a partition plate 10.4 parallel to the top plate 10.1 and the bottom plate 10.2 is further arranged in the containing box and divides the space in the containing box into an upper space 4.1 and a lower space 4.2, two fixing blocks 4.4 are fixed in the upper space, the fixing blocks 4.4 are connected with the top plate and the partition plate, and a slide rod 4.3 is connected between each fixing block and the third plate, the two sliding rods are parallel to each other, the first solar cell panel is fixed on the upper surface of the bearing plate, the bearing plate is fixedly connected with two sliding blocks, the two sliding blocks are located on two sides of the bearing plate, each sliding block is penetrated by one sliding rod and can slide along the sliding rod, a first spring 4.5 is sleeved on each sliding rod, one end of each first spring 4.5 is fixedly connected with the corresponding sliding block, the other end of each first spring is fixedly connected with the corresponding third side plate, the top plate and the corresponding partition plate are made of transparent materials, and one side, close to the corresponding third side plate, of the bottom plate is hinged to the corresponding base plate; electric telescopic handle has two, two electric telescopic handle's bottom all with the base plate is fixed, the equal fixed connection in banding installation piece and two electric telescopic handle's top, install first fixed pulley on the installation piece, driving motor is used for the drive coiling mechanism, the loading board is kept away from one side of third curb plate with be connected with the strap between the coiling mechanism, the strap process first fixed pulley. Two parallel insertion rods 5.3 are fixed on one side, far away from the third side plate, of the bearing plate, the end, far away from the bearing plate, of each insertion rod is hemispherical, two parallel cylinder portions 6.2 are fixed on the mounting block, each cylinder portion is provided with a horn-shaped first insertion hole 6.2.1 and a cylindrical second insertion hole 6.2.2 connected with the first insertion hole, the first insertion hole is far away from the mounting block relative to the second insertion hole, the large-opening end of the first insertion hole is far away from the mounting block relative to the small-opening end, and the closed end of the second insertion hole is provided with a second pressure sensor; the base plate is provided with a first groove and a second groove, a first pressure sensor 6.2.3 is installed in the first groove, the stress surface of the first pressure sensor 1.1 is connected with a movable plate 1.3 through a second spring 1.2, a strip-shaped iron block 4.6 is fixed on one side of the bottom plate, which is far away from the third side plate, and an electromagnet part 1.5 is installed in the second groove 1.4; the driving motor, the electromagnet part, the first pressure sensor and the second pressure sensor are all connected with the controller, the controller can control the solar cell module to be in a first state and a second state, in the first state, the bottom plate presses the movable plate, the measurement value of the first pressure sensor is larger than a first threshold value, the electromagnet part is opened to attract the strip-shaped iron block, the first spring is in a first length, the driving motor is in a locking state, and the electric telescopic rod is in a shortest state; in the second state, the electromagnet part is in a closed state, each inserted link is inserted into one cylinder part and abuts against one second pressure sensor, the measured values of the two second pressure sensors are both greater than a second threshold value, the first spring is in a second length, the driving motor is in a locked state, and the electric telescopic rod is in a longest state; the second length is greater than the first length.

An inverted L-shaped mounting support 2.2 is further fixed on the base plate, the inverted L-shaped mounting support 2.2 comprises a vertical plate connected with the base plate and a transverse plate connected with the vertical plate, a second fixed pulley 2.3 is mounted at the end of the transverse plate, the cloth belt passes through the second fixed pulley 2.3, an image acquisition device 2.5 is mounted on one side, facing the cloth belt, of the vertical plate, and a first identification mark 3.1 and a second identification mark 3.2 are arranged on the cloth belt 3; when the solar cell module is in a first state, the image acquisition device can acquire the first identification mark, and when the solar cell module is in a second state, the image acquisition device 2.5 can acquire the second identification mark; the controller is capable of controlling the solar cell module to perform a first conversion operation and a second conversion operation;

The image acquisition device is a CMOS image acquisition device. Also included is a wireless communication unit connected with the controller. The width of the cloth belt is more than 20 cm. The two cylinder parts and the mounting block are welded and fixed. When the solar cell module is in the second state, each sliding block is respectively abutted to one fixed block. The inserted rod comprises a cylindrical part and a hemispherical part positioned at the end part of the cylindrical part, and the diameter of the cylindrical part of the inserted rod is 1-2mm smaller than that of the second insertion hole; the small opening end of the first jack is circular, and the diameter of the small opening end of the first jack is equal to that of the second jack; the large-opening end of the first jack is circular, and the diameter of the large-opening end of the first jack is 2.5 times larger than that of the small-opening end.

According to the solar cell module, the remote control center can control a plurality of solar cell modules on site through the wireless communication unit. When no wind exists, the solar cell module is controlled to be in the second state, so that the first solar cell panel and the second solar cell panel are both in the exposed state and in the inclined state, and the higher power generation efficiency is obtained. And in the second state, the cloth belt is in a tensioned state, and the inserted bar is inserted into the barrel part for limiting, so that the solar cell module is stably in the second state. The first jack of loudspeaker form because the major orifice end of first jack is greater than the diameter of inserted bar far away to make the inserted bar change in getting into first jack, get into the second jack after that, and butt second pressure sensor.

When strong wind weather may occur according to weather forecast, the solar cell module is controlled to be changed from the second state to the first state through the wireless communication unit, so that the first solar cell panel and the second solar cell panel are both accommodated in the accommodating box, and the accommodating box is laid on the substrate and attracted by the electromagnet part, so that the accommodating box is easier to cope with the strong wind weather. The travel of the cloth belt is controlled by the aid of the image acquisition device, the first identification mark and the second identification mark, so that the driving motor rotates more accurately, and the solar cell module is more stably in a first state or a second state. As described above in the description of the first switching operation and the second switching operation, the first and second pressure sensors, the image pickup device, and the first and second identification marks enable the controller to control the start and stop of the driving motor with high accuracy. For clarity of illustration, the first and second identification marks are clearly shown in fig. 1 and 2, and actually the first and second identification marks may be printed on the tapes or painted on the tapes and do not protrude from the tapes.

While the invention has been shown and described with respect to the preferred embodiments, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the invention as defined in the following claims.

Claims

1. A strong wind resistant solar cell module is characterized by comprising a controller, a base plate, a containing box, an electric telescopic rod, a winding device, a driving motor, a bearing plate, a first solar cell panel, a second solar cell panel, a strip-shaped mounting block and a wireless communication unit connected with the controller, wherein the containing box is in a cuboid shape and comprises a bottom plate, a top plate, a first side plate, a second side plate and a third side plate, the first side plate and the second side plate are opposite, one side of the containing box opposite to the third side plate is open, a partition plate parallel to the top plate and the bottom plate is further arranged in the containing box, the partition plate divides the space in the containing box into an upper space and a lower space, two fixing blocks are fixed in the upper space and connected with the top plate and the partition plate, and a slide bar is connected between each fixing block and the third side plate, the two sliding rods are parallel to each other, the first solar cell panel is fixed on the upper surface of the bearing plate, the bearing plate is fixedly connected with two sliding blocks, the two sliding blocks are located on two sides of the bearing plate, each sliding block is penetrated by one sliding rod and can slide along the sliding rod, a first spring is sleeved on each sliding rod, one end of each first spring is fixedly connected with the corresponding sliding block, the other end of each first spring is fixedly connected with the corresponding third side plate, the top plate and the corresponding partition plate are both made of transparent materials, and one side, close to the corresponding third side plate, of the bottom plate is hinged to the corresponding base plate; the number of the electric telescopic rods is two, the bottom ends of the two electric telescopic rods are fixed with the base plate, the strip-shaped mounting blocks are fixedly connected with the top ends of the two electric telescopic rods, first fixed pulleys are mounted on the mounting blocks, the driving motor is used for driving the winding device, a cloth belt is connected between one side of the bearing plate, which is far away from the third side plate, and the winding device, and passes through the first fixed pulleys; two parallel insertion rods are fixed on one side, away from the third side plate, of the bearing plate, the end, away from the bearing plate, of each insertion rod is hemispherical, two parallel cylinder portions are fixed on the mounting block, each cylinder portion is provided with a horn-shaped first insertion hole and a cylindrical second insertion hole connected with the first insertion hole, the first insertion hole is farther away from the mounting block relative to the second insertion hole, the large opening end of the first insertion hole is farther away from the mounting block relative to the small opening end, and the closed end of the second insertion hole is provided with a second pressure sensor; the base plate is provided with a first groove and a second groove, a first pressure sensor is installed in the first groove, the stress surface of the first pressure sensor is connected with a movable plate through a second spring, a strip-shaped iron block is fixed on one side, away from the third side plate, of the bottom plate, and an electromagnet part is installed in the second groove; the driving motor, the electromagnet part, the first pressure sensor and the second pressure sensor are all connected with the controller, the controller can control the solar cell module to be in a first state and a second state, in the first state, the bottom plate presses the movable plate, the measurement value of the first pressure sensor is larger than a first threshold value, the electromagnet part is opened to attract the strip-shaped iron block, the first spring is in a first length, the driving motor is in a locking state, and the electric telescopic rod is in a shortest state; in the second state, the electromagnet part is in a closed state, each inserted link is inserted into one cylinder part and abuts against one second pressure sensor, the measured values of the two second pressure sensors are both greater than a second threshold value, the first spring is in a second length, the driving motor is in a locked state, and the electric telescopic rod is in a longest state; the second length is greater than the first length; the inserted rod comprises a cylindrical part and a hemispherical part positioned at the end part of the cylindrical part, and the diameter of the cylindrical part of the inserted rod is 1-2mm smaller than that of the second insertion hole; the small opening end of the first jack is circular, and the diameter of the small opening end of the first jack is equal to that of the second jack; the large-opening end of the first jack is circular, and the diameter of the large-opening end of the first jack is 2.5 times larger than that of the small-opening end; an inverted L-shaped mounting support is further fixed on the base plate and comprises a vertical plate connected with the base plate and a transverse plate connected with the vertical plate, a second fixed pulley is mounted at the end of the transverse plate, the cloth belt passes through the second fixed pulley, an image acquisition device is mounted on one side, facing the cloth belt, of the vertical plate, and a first identification mark and a second identification mark are arranged on the cloth belt; when the solar cell module is in a first state, the image acquisition device can acquire the first identification mark, and when the solar cell module is in a second state, the image acquisition device can acquire the second identification mark; the controller is capable of controlling the solar cell module to perform a first conversion operation and a second conversion operation;

2. A strong wind resistant solar module according to claim 1, characterised in that the width of the tapes is more than 20 cm.

3. The strong wind resistant solar cell module of claim 1 wherein both of the barrel portions are welded to the mounting block.

4. The strong wind resistant solar cell module of claim 1 wherein the image capture device is a CMOS image capture device.

5. The strong wind resistant solar cell module of claim 1 wherein each of the sliders abuts a respective one of the mounting blocks when the solar cell module is in the second state.