WO2019221452A1

WO2019221452A1 - Awning type solar cell module power generation apparatus

Info

Publication number: WO2019221452A1
Application number: PCT/KR2019/005599
Authority: WO
Inventors: 김민성; 이만근
Original assignee: Kim Minseong; Lee Mangeun
Priority date: 2018-05-15
Filing date: 2019-05-09
Publication date: 2019-11-21
Also published as: CN111247737A; KR101947401B1

Abstract

An awning type solar cell module power generation apparatus, according to the present invention, comprises: a light collecting awning having a plurality of solar cell modules integrally adhered and mounted onto the upper surface thereof; a rotary shaft mounted in a light collecting awning housing so as to rotate forward and backward; a drum which is mounted on the rotary shaft and in which the light collecting awning is stored by being rolled in a scroll form; alignment guide plates mounted on both ends of the drum so as to align the light collecting awning; a front end support mounted on the front end of the light collecting awning; and an alignment supporting device installed at the entrance of the light collecting awning housing so as to align and support the light collecting awning when the light collecting awning enters and exits.

Description

Oning type solar cell module generator

The present invention relates to an on-type solar cell module power generation apparatus for installing a solar cell module on a light-converging shading film, and condensing it with a solar cell module.

Owning can be installed on the upper wall of the doorway in a building or on the roof of a vehicle to block the sun to shade, or to receive rainwater to provide a safe place where raindrops do not fall. It is a structure.

Among the onings installed and used as described above, the electric production function using the solar cell module is added to the function of the onings installed and used in a leisure vehicle such as a camping car, Korean Patent Laid-Open Publication No. 10-2006-0107609 (Vehicle on-vehicle), Korean Patent Laid-Open No. 10-2012-0086923 (solar energy utilization system for automobile) and Korean Patent Publication No. 10-2016-0094041 (vehicle on-vehicle equipped with a solar cell module) are known.

Korean Patent Laid-Open Publication No. 10-2012-0086923 (solar energy utilization system for automobiles), when an automobile engine operates, the electric energy generated by the engine operation and the electrical energy output from the solar cell module to the battery of the vehicle. Accumulate and store the electric energy output from the solar cell module in the battery according to the outside temperature or supply it to the blower built in the air conditioner of the vehicle, or supply the electric energy to the preheater of the vehicle when the engine is stopped. Receiving a circuit and ignition on signal when the engine is stopped, short-circuits the circuit when the engine is running, and simultaneously, opening the circuit when the engine is stopped, and opening the circuit when the engine is stopped, and simultaneously opening the circuit when the engine is stopped. The circuit is shorted when it stops.

In addition, there are a plurality of components that require preheating, but if the energy produced by the solar cells is insufficient to preheat the components, the plurality of components may be selectively preheated.

Korean Patent Laid-Open Publication No. 10-2016-0094041 (vehicle on-vehicle equipped with a solar cell module) is installed on one side of the on-housing housing by installing a winding roller to rotate on the inside of the on-housing housing forming a body portion It is possible to rotate forward and backward by a motor, and a support is mounted on the front end of the sunshade fixed to the winding roller, and a support for supporting the sunshade to be developed is installed between the oning housing and the support, and the support of the sunscreen A solar cell module, which is a solar cell module, is formed on the upper surface of the solar cell module by condensing solar light by a solar electric module installed on the sunscreen and supplying electricity generated by the solar cell module to the storage battery.

However, this is because when the solar cell module is directly wound on the winding roller having a small cross-sectional diameter, the solar cell module is easily damaged when the solar cell module formed on the upper surface of the solar curtain is wound on the winding roller having a small diameter. And the solar cell module is pulled out or unfolded through the doorway of the body part (anning housing) because the entrance of the body part (anning housing) is simply opened. The solar cell module is damaged by colliding with the entrance and exit.) In particular, the solar cell module is collected by the solar cell module formed on the top surface of the sunshade, and the electricity generated by the solar cell module is supplied to the storage battery. There is a limitation that the gist of the technical configuration for producing electricity is not provided at all.

[Patent Documents]

(Patent Document 1) KR10-2006-0107609 A

(Patent Document 2) KR10-2012-0086923 A

(Patent Document 3) KR10-2016-0094041 A

The present invention is to provide an onning type solar cell module power generation apparatus improved to solve the above problems.

The present invention is to provide an onning type solar cell module power generation apparatus by adding an electric production function using a solar cell module to the function of the onning used in a recreational vehicle, such as a camping car.

The present invention, the solar cell module is integrally bonded to the upper surface of the condensing awning is installed in the condensing awning housing and is rolled and stored in the form of a roll on a rotating shaft that is manually or automatically rotated forward and reverse, when condensing the solar cell module condensing awning Extracting and spreading the light to the outside of the light-shielding shade housing to collect sunlight, and install a tip support at the tip of the light-shielding shade; Installing a light-converging shading film integrally bonded to an upper surface of the light-emitting shading film in a multi-faced double row; A drum is integrally installed on an outer side of the rotating shaft installed in the light-collecting shading housing; An alignment induction disc for aligning the light collection shades at both ends of the drum to which the light collection shades are wound; An alignment support device is installed at the entrance and exit of the light-collecting shade film housing to align and support the light-collecting shade film to be drawn in and drawn out; The electricity generated by the solar cell modules in each row is output through the electrical connection means installed on one side of the rotary shaft installed in the light-shielding shade housing or on the tip support installed on the tip of the light-shielding shade membrane to charge the rechargeable battery. The purpose is to provide.

Another object of the present invention is to install a light-shielding shade film integrally adhesively installed on the top surface of the light-shielding shade film, so that the light-shielding shade film can be smoothly and easily rewound or unfolded by installing in a double row; To rewind the light-collecting sunscreen on the drum so that the solar cell module is not damaged; An alignment guide plate is installed at both ends of the drum to which the light-collecting shading film is wound so that the light-collecting shading film is aligned and rewinded in a line without being deflected; An alignment support device is installed at the entrance and exit of the light-collecting shade film housing to properly align and support the light-collecting shade film to be drawn in and drawn out; The electricity generated by the solar cell modules in each row is output through the electrical connection means installed on one side of the rotary shaft installed in the light-shielding shade housing or on the distal end support installed on the tip of the light-shielding shade membrane to be charged to the rechargeable battery. It is to provide a power generation device.

An onning type solar cell module power generation apparatus according to an embodiment of the present invention for achieving the above technical problem, a plurality of solar cell modules are integrally adhesively installed on the upper surface; A rotating shaft installed in the light-collecting shading housing so as to be rotated forward and backward manually or automatically; A drum installed on the rotating shaft and the condensing shade film rolled and stored in a roll form; Alignment guide plates installed at both ends of the drum to align the light-collecting shading film; A front end support provided at the front end of the light converging shading film; And an alignment support device installed at an entrance and exit of the condensing awning housing to align and support the condensing awning when the condensing awning enters and exits.

When condensing the solar cell module, the condensing awning film is taken out of the condensing awning housing to spread out to condense the solar light,

The electricity produced by the plurality of solar cell modules is output through an electrical output method installed on one side of the rotary shaft or the end support via an electrical connection method to charge the rechargeable battery,

The electrical connection method includes connecting each individual positive electrode electric line and each individual negative electrode electric line of the plurality of solar cell modules to a main connection terminal and connecting the output terminal of the main connection terminal to an electrical output means.

In addition, the alignment support device of the onning type solar cell module power generation apparatus according to an embodiment of the present invention, the entrance and exit guide port installed in the entrance and exit of the light-shielding shade film housing; Side support rollers installed so as to rotate freely at both ends of the inside of the entry and exit guide port; And an upper support roller and a lower support roller installed to freely rotate at an upper side and a lower end of the rear end in the entry and exit guide port.

In addition, the condensing shade film of the onning type solar cell module power generation device according to an embodiment of the present invention, can be directly installed on the upper surface of the windshield installed on the roof of the camper cab.

In addition, the entry and exit port of the onning type solar cell module power generation device according to an embodiment of the present invention may be coupled to the soft cap to the tip of the entrance and exit induction port.

In addition, the soft cap of the onning type solar cell module power generation device according to an embodiment of the present invention may be formed of a rubber material or a soft synthetic resin material.

Specific details of other embodiments are included in the detailed description and the drawings.

In the Oning type solar cell module power generation device according to the present invention, the solar cell module is integrally bonded to the upper surface of the condensing awning is installed in the condensing awning housing, and rolled and stored in the form of a roll on a rotating shaft that is rotated forward or backward manually or automatically, When condensing the solar cell module to take out the light-converging shading film to the outside of the light-shielding shading housing to expand and collect the solar cell module, install a tip support at the front end of the light-shielding shading film; Installing a solar cell module that is integrally adhesively installed on an upper surface of the light-collecting shading film in a multi-faced double row; A drum is integrally installed on an outer side of the rotating shaft installed in the light-collecting shading housing; An alignment induction disc for aligning the light collection shades at both ends of the drum to which the light collection shades are wound; An alignment support device is installed at the entrance and exit of the light-collecting shade film housing to align and support the light-collecting shade film to be drawn in and drawn out; The electricity produced by the solar cell modules of each line is output through the electrical connection means installed on one side or the tip support of the rotary shaft installed in the light-converging shading housing to charge the rechargeable battery.

According to the present invention, it is possible to smoothly and easily rewind or unfold the condensing awning film by installing the condensing awning film integrally attached to the upper surface of the condensing awning film in a multi-lateral manner. To prevent the solar cell module from damaging the solar cell module by rewinding the solar shade module to a drum installed outside the rotary shaft installed in the light converging shade film housing; An alignment induction disc is installed at both ends of the drum to which the light-collecting shading film is wound so that the light-collecting shading film wound on the drum is aligned in a line without being rewound; An alignment support device is installed at the entrance and exit of the light-collecting shade film housing to properly align and support the light-collecting shade film to be drawn in and drawn out; The electricity produced by the solar cell modules of each line may be output through the electrical connection means installed on one end of the rotary shaft installed in the light-converging shading housing or the tip support provided on the tip of the light-collecting shading film, and charged in the rechargeable battery.

1 is a perspective view showing a specific implementation of the onning type solar cell module power generation apparatus according to the present invention.

2 and 3 are a side cross-sectional view and a planar cross-sectional view of the onning type solar cell module generator according to the present invention illustrated in FIG.

Figures 4a and 4b is an exemplary view showing different embodiments of the installation state and the electrical wiring state of the onning type solar cell module generator according to the present invention.

5a and 5b is an exemplary view showing another embodiment of the installation state and the electrical wiring state of the solar cell module in the onning type solar cell module generator according to the present invention.

6 is a cross-sectional view showing an extract of the slip ring device which is an electrical connection means installed in the onning type solar cell module power generation apparatus according to the present invention.

Figure 7 is a cross-sectional view taken from the outlet plug device which is an electrical connection means installed in the oning type solar cell module power generation apparatus according to the present invention.

8 is an exemplary view showing a state in which the light collecting sunscreen directly installed on the windshield mounted on the roof of the car cab in the onning type solar cell module generator according to the present invention.

[Description of the code]

1: Onning type solar cell module generator 10: Condensing awning housing

11: entry and exit guide 12: side support roller

13-1: Upper support roller 13-2: Lower support roller

20: rotating shaft 21: drum

22: alignment guide plate 30: condensing awning

40: solar cell module 50: electrical connection means

50-1: slip device 52: outlet plug

100: camper 120: windbreak

The above and other objects and features of the present invention will be more clearly understood from the following detailed description taken in conjunction with the accompanying drawings.

1 to 8 show a specific implementation of the onning type solar cell module generator 1 according to the present invention, Figure 1 shows an onning type solar cell module generator 1 according to the present invention. 2 and 3 are side cross-sectional views and planar cross-sectional views of the onning type solar cell module generator 1 according to the present invention illustrated in FIG. 1, and FIGS. 4A and 4B and 5A and 5B are according to the present invention. In the onning type solar cell module generator 1 according to the present invention, an exemplary view showing different embodiments of an installation state and an electrical wiring state of the solar cell module is illustrated. FIGS. 6 and 7 illustrate an onning type solar cell module generator according to the present invention. Figure 1 is a cross-sectional view of the slip ring device 50-1 and the outlet plug device 50-2, which is an electrical connection means 50 installed in (1), Figure 8 is an onning type solar cell module power generation according to the present invention Driving a light-collecting sunscreen 30 of the device 1 In an exemplary view showing a state where the upper surface of the windshield directly mounted on a roof.

First, the structure of the onning type solar cell module generator 1 according to the present invention will be described.

The onning type solar cell module generator 1 according to the present invention was formed as illustrated in FIGS. 1, 2, and 3.

In the central portion of the light-converging shading housing 10 having the entrance and exit formed on one surface thereof in the longitudinal direction, the shaft was installed on the shaft so that the rotation shaft 20 could be freely rotated. 1, the manual storage take-out operation tool 23 is installed to be connected to the rotating shaft 20 as illustrated in FIG. 1, or the reverse shaft reduction motor 24 is mounted as illustrated in FIG. 3 to manually or automatically rotate the rotating shaft 20. It can be rotated forward and backward.

One end of the condensation awning film 30 is fixedly mounted on the outer circumference of the drum 21, and a front end support 31 is formed at the other end of the condensing awning film 30 exposed to the outside through the entrance and exit of the condensing awning housing 10. Was integrally mounted (fixed), and a plurality of handles 32 were installed (mounted) on the front surface of the tip support 31.

The opening and closing support is installed between the condensing shade film housing 10 and the tip support 31 so that the tip support 31 is easily operated when the condensing shade film 30 is wound or unfolded and is supported by the condensing shade film 30. I could do it.

Both sides of the bottom surface of the tip support 31 can be attached to and lifted off the pedestal 35 so as to support the light-collecting shading film 30 including the tip support 31.

Since the above configuration is similar to the conventional configuration, a detailed description thereof will be omitted.

When the drum 21 is formed on the outer side (outer periphery) of the rotating shaft 20 to wind the light-collecting shade film 30, the coil 21 can be easily wound without damaging the solar cell module 40 formed on the top surface of the light-collecting shade film 30. To make it possible.

The solar cell module 40 collides with the entrance and exit due to the fluctuation of the condensing awning film 30 when the condensing awning film 30 is wound or unfolded on the drum 21 and the vertical swing of the condensing awning film 30. The alignment support device was installed (mounted) to prevent damage.

In the alignment support device installed at the entrance and exit of the light collection and shade housing 10, an entrance and exit guide 11 is installed at the entrance and exit of the light collection and shade housing 10, and both sides of the front and rear ends of the entrance and exit guide 11 are provided. A mandrel was installed to rotate the support roller 12 freely, and the upper support roller 13-1 and the lower support roller 13-2 are freely rotated above and below the inner rear end of the entry and exit guide 11. Installed so that you can.

In particular, the front end (entrance) of the entrance / exit inlet 11 engages (covers) the soft cap 11-1 so that the light-converging shading film 30 is wound or unrolled from the drum 21 to be unfolded. The solar cell module 40 is prevented from colliding with the tip (entrance) of the entry and exit inlet 11 due to the up and down fluctuations, and the soft cap 11-1 coupled to the tip of the entry and exit inlet 11. ) Is made of rubber or soft synthetic resin.

The solar cell module 40 installed (formed) on the upper surface of the light-converging shading film 30 was installed in a multi-lateral row while maintaining a constant interval. As illustrated in FIGS. 3 to 5B, preferably, two surfaces are horizontally horizontal. The solar cell modules 40 to be installed in one row are installed (formed) in double rows while maintaining at a constant interval.

In the solar cell module 40 installed (formed) on the upper surface of the light collection shading film 30 as described above, each solar cell module 40 of each line is a separate positive electrode (+) electric wire 41-1 as an individual wire 41. And the respective negative electrode (-) electric wire (41-2), respectively, and the diode (D1) is connected to each of the individual positive electrode (41-1) to obtain a stable electricity.

Each of the individual anode electric wire 41-1 and the individual cathode electric wire 41-2 can be connected in two ways as follows.

The wiring method is as shown in FIGS. 4A and 4B and FIGS. 5A and 5B, each of the individual anode electric line 41-1 and the individual cathode electric line 41-2 of the solar cell module 40 forming each line. ) Is connected to the main positive electric wire 42-1 and the main negative electric wire 42-2, which are the main electric wires 42, and the electric output is output to the output terminals of the main positive electric wire 42-1 and the main negative electric wire 42-2. The direct connection of the means 50 and the connection of the respective positive and negative electrical wires 41-1 and 41-2 to the main connection terminal 45 (connection) The electrical output means 50 is connected to the output terminal.

The electrical output means 50 directly connected to the output terminals of the main positive electric wire 42-1 and the main negative electric wire 42-2 or connected through the main connection terminal 45 is as illustrated in FIG. 6. The slip ring device 50-1 connected to the rotating shaft 20 is mentioned.

The slip ring device 50-1 is connected to the rotating shaft 20 by rotatably installing the rotating shaft tube 52 on one side of the slip ring support bundle 51, and the anode inside the rotating shaft tube 52. The terminal block 53 and the negative terminal block 54 were installed to be electrically connected to the main positive electric wire 42-1 and the main negative electric wire 42-2, which are the main electric wires 42, and the slip ring support bundle 51 was provided. On the other side of the output wire 60 was connected to be able to charge the electricity supplied to the battery.

Since the slip ring device 50-1 as described above is commonly used, a detailed description of the configuration and operation principle will be omitted.

In the slip ring device 50-1 as described above, a slip ring is commonly used as a wire connection method for connecting a wire attached to a rotating part with a fixed wire. At this time, the end of the slip ring is connected to the rotating part and the fixed part inside.

By using the same principle, slip ring is also used to connect the power generation part, which is a rotating shaft, to the control part on the fixed shaft, or to transmit information generated from the rotating shaft of the motor to the fixed shaft.

In addition, the electrical output means 50 which is directly connected to the output terminal of the main positive electric wire 42-1 and the main negative electric wire 42-2 or connected through the main connection terminal 45 is illustrated in FIG. 7. As described above, there may be mentioned an outlet plug (means) including a plug 61 to which the main electric wires 42: 42-1 and 42-2 are connected and a plug 62 to which the output wire 60 is connected. 61 and the plug 62 are commonly used, and thus a detailed description thereof will be omitted.

In addition, in the onning type solar cell module generator 1 according to the present invention, as illustrated in FIG. 8, only the light-collecting sunscreen 30 to which the solar cell module 40 is attached may be used in a cab in an automobile such as a motorhome 100. It can be installed directly on the upper surface of the windshield 120 mounted on the roof of 110.

As such, when the light-collecting shading film 30 with the solar cell module 40 is directly installed on the upper surface of the windshield 120 mounted on the roof of the cab 110, the electrical connection method of FIG. 5A or FIG. 5B and FIG. It is preferable to use the illustrated outlet plug device 50-2.

Hereinafter, an operation relationship of the onning type solar cell module generator 1 according to the present invention configured as described above will be described.

The onning type solar cell module generator 1 according to the present invention illustrated in FIGS. 1 to 7 operates as follows.

The manual storage take-out operating mechanism 23 installed (mounted) on one side of the light-collecting shading housing 10 is artificially operated by using a separate tool to rotate the rotation shaft 20 to the normal or reverse, or the light-shielding shading housing ( 10 is a stationary deceleration motor 24 installed (mounted) on one side thereof to operate the stationary region to rotate the rotating shaft 20 to the stationary region. Can be drawn out or wound around the drum 21 with the draw-out inlet 11.

Since the opening and closing support is provided between the light-converging shade film housing 10 and the tip support 31, the tip support 31 can be easily operated when the light-collecting shade film 30 is wound or unfolded. A sunshade 30 can be supported by support.

Since such operation is conventionally performed, a more detailed description of the operation principle of the withdrawal (expansion) and rewinding of the light-converging shading film 30 will be omitted.

As described above, when the light-collecting shading film 30 passes through the front end support 31, a mandrel is installed on both sides of the front end of the entrance and exit guide 11 so as to allow the side support rollers 12 to rotate freely. Since the upper support roller 13-1 and the lower support roller 13-2 are rotatably installed on the upper side and the lower side of the inner rear end of the tool 11, both side surfaces of the light converging sunscreen 30 are supported by the side. The roller 12 is moved in a row without being biased to one side, and the upper and lower swings are limited by the upper support roller 13-1 and the lower support roller 13-2 formed of a soft material.

In particular, even if the solar cell module 40 installed on the upper surface of the light-collecting shading film 30 is contacted by the upper support roller 13-1 formed of a soft material, it is not damaged, and the upper support roller 13-1 is the light-shielding shading film. When the 30 is wound on the drum 21 or taken out to the outside, the light collection shade 30 may be guided or supported so that the light collection shade 30 may move smoothly.

In particular, the soft cap 11-1 coupled to the front end (inlet) of the entrance / exit induction port 11 has the sun because of the vertical fluctuation of the light collection shading film 30 when the light collection shading film 30 is wound or unfolded on the drum 21. The battery module 40 is prevented from colliding with the tip (entrance) of the entry and exit inlet 11 and being damaged.

As described above, electricity is produced in a state in which the light-collecting shade film 30 drawn out from the light-shielding shade film housing 10 is fully developed.

In addition, the onning type solar cell module generator 1 according to the present invention condenses on the upper surface of the windshield 120 mounted on the roof of the cab 110 in an automobile such as the motorhome 100 as illustrated in FIG. 8. When the sunshade 30 can be directly installed, the light collecting sunshade 30 directly installed on the upper surface of the windshield 120 produces electricity.

The production of electricity begins by operating the main switch (ON).

The solar cell module 40 installed (formed) on the top surface of the light collection shading film 30 collects sunlight to generate electricity, and the electricity generated by the solar cell module 40 of each line is an individual electric wire 41. The main positive electric wire 42-1 and the main negative electric wire 42-2, which are the main electric wires 42, or the individual positive electric wires through the individual positive electric wire 41-1 and the individual negative electric wire 41-2. It is supplied to the main connection terminal 45 via the electric wire 41-1 and the individual cathode electric wire 41-2.

The electricity supplied to the electric output means 50 through the main positive electric wire 42-1 and the main negative electric wire 42-2 is a rotating shaft tube when the electric output means 50 is the slip ring device 50-1. It is output to the output wire 60 via the positive terminal block 53 and the negative terminal block 54 provided inside the 52, and is supplied to the battery and charged.

On the other hand, if the electrical output means 50 connected through the main connection terminal 45 was an outlet plug (means) consisting of the outlet 61 and the plug 62, the output through the outlet 61 and the plug 62. Output to the wire 60 is supplied to the battery and charged.

When the electricity is produced and charged to the battery as described above, the electricity is cut off by operating the main switch (OFF).

As described above, when the manual storage draw-out operation port 23 or the reverse speed reduction motor 24 installed on one side of the light-collecting sunscreen housing 1 is operated in the state in which the electric input is cut off, the rotating shaft 20 is reversed. ) And the drum 21 is rotated in reverse to wind the light-collecting shading film 30 that is drawn out (expanded) on the outer circumference of the drum 21.

Even when the light-collecting shading film 30 is rewound to the outer circumference of the drum 21 as described above, the soft cap 11-1 coupled to the tip (inlet) of the entrance and exit guide port 11 is caused by the vertical fluctuation of the light-shielding shading film 30. The solar cell module 40 is prevented from colliding with the front end (inlet) of the entry and exit inlet (11) to prevent damage, and both sides of the light-collecting shading film 30 is in contact with the side support rollers 12 to move to any one side. It moves between the alignment induction disc 22 and the alignment induction disc 22 facing each other without hitting, and is wound by the upper support roller 13-1 and the lower support roller 13-2 formed of a soft material. Up and down fluctuations are limited.

In particular, even if the solar cell module 40 installed on the upper surface of the light-collecting shading film 30 is in contact with the upper support roller 13-1 formed of a soft material, it is not damaged.

The present invention described above is not limited to the above description, and various substitutions, modifications, and changes that can be made without departing from the technical spirit of the present invention can be made by those skilled in the art. Will be obvious.

Oning type solar cell module power generation apparatus according to an embodiment of the present invention can be used to generate power using sunlight.

Claims

A light collecting shading film in which a plurality of solar cell modules are integrally bonded to an upper surface thereof;

A rotating shaft installed in the light-collecting shading housing so as to be rotated forward and backward manually or automatically;

A drum installed on the rotating shaft and the condensing shade film rolled and stored in a roll form;

Alignment guide plates installed at both ends of the drum to align the light-collecting shading film;

A front end support provided at the front end of the light converging shading film; And

And an alignment support device installed at an entrance and exit of the condensing awning housing to align and support the condensing awning when the condensing awning enters and exits.

When condensing the solar cell module, the condensing awning film is taken out of the condensing awning housing to spread out to condense the solar light,

The electricity produced by the plurality of solar cell modules is output through an electrical output method installed on one side of the rotary shaft or the end support via an electrical connection method to charge the rechargeable battery,

The electrical connection method may include connecting each individual positive electrode electric line and each individual negative electrode electric line of the plurality of solar cell modules to a main connection terminal, and connecting the output terminal of the main connection terminal to an electrical output means;

Oning type solar cell module generator comprising a.
The method according to claim 1,

The alignment support device,

An entrance and exit guide port installed at an entrance and exit of the light converging shading housing;

Side support rollers installed so as to rotate freely at both ends of the inside of the entry and exit guide port; And

An upper support roller and a lower support roller installed so as to rotate freely at an upper side and a lower end of the rear end in the entry and exit guide port;

Oning type solar cell module generator comprising a.
The method according to claim 1,

The condensing shade film,

Mounted directly on the top of the windshield on the roof of the motorhome cab;

Oning type solar cell module generator comprising a.
The method according to claim 2,

The entry and exit guide,

Coupling a soft cap to the tip of the entry and exit inlet;

Oning type solar cell module generator comprising a.
The method according to claim 4,

The soft cap,

Formed of rubber or soft synthetic resin material;

Oning type solar cell module generator comprising a.