KR20180134274A - Clean of module frame - Google Patents

Abstract

The purpose of the present invention is to provide a structure for washing polluted dust and dirt, fine dust from plants and automobiles, and yellow dust from an upper surface of a panel by using washing water. In the structure, cooling water or warm water is sprayed to the panel at an ambient temperature of room temperature and low temperatures. In summer, the structure sprays washing water to a high temperature panel so as to cool the panel such that the deterioration of the panel is prevented in advance and in winter, sprays warm water so as to remove snow from the panel, thereby improving power generation efficiency of photovoltaic power generation facilities. An integrated supply pipe and a spray hole formed on an upper frame spray the washing water.

Description

[0001] The present invention relates to a clean module frame having a cleaning structure,

The present invention relates to a frame of a solar module, and more particularly, to an upper frame having a washing water supply hole and a jet opening formed on one side of an upper frame of the module, and cooling water is sprayed on the panel, And a structure for washing the pollutants and the yellow dust and the organic pollutants in the plant area for a long period of time so as not to become a solid lump, and prevent the sunlight of the sunlight for a long time by accumulating snow in the winter season To achieve this function, the upper frame is connected to a cooling water supply line (hereinafter referred to as "cooling water" or "hot water", hereinafter referred to as "washing water") for spraying hot water of a predetermined normal temperature onto a module panel And a plurality of injection holes are provided in the upper frame itself to replace a separate injection mechanism, Cooling water or hot water jetting, and contaminant cleaning, which maximizes the effect of injecting gonol to all the panels.

Solar power generation panels with 20 to 25 years of service life exposed to the outside are subject to shadows caused by various pollutants such as dust, snow, salt, traffic pollution, bird excretion, There is a problem that power generation efficiency is lowered due to overheating of the panel having the semiconductor structure due to the overheating.

The solar power generation efficiency deterioration due to external factors affects the economical efficiency of the entire solar power generation system.

One of the means for solving this problem is a water cooling type which cools the heat by spraying water using a nozzle to raise the temperature of the solar panel. However, this method can not uniformly spray water on the upper part of the solar panel, consumes a large amount of water, and injects washing water every day by using labor in the summer, and evenly distributes the solar module Problems that can not be solved occurred.

1013497920000 (2014.01.03.) Title; Cooling system of solar power system using geothermal

The present invention forms a structure for cleaning the dust and dirt of polluted air on the upper surface of a solar cell panel (hereinafter referred to as "panel") and dust, dust and yellow dust (hereinafter referred to as " The panel is designed to spray cooling water or hot water at an ambient temperature of room temperature or low temperature. In the summer, cooling water is sprayed to prevent the panel from deteriorating, and hot water is sprayed in the winter season, The upper frame for spraying the washing water in the upper frame corresponding to the upper part of the left, right, lower and upper module frames is provided with a frame for increasing the power generation efficiency of the solar power generation facility by forming a structure have.

The present invention relates to an upper frame (10) of a photovoltaic module (21) which removes yellowish and hot panel (280) on a panel upper surface with cleaning water (20)

A hook 240 formed with a latching protrusion 240-1 at the lower end of one side wall surface and a latching protrusion 202 formed with a latching protrusion 202 at the lower end of the other side wall are formed, The left bar 230 on which the plurality of integral injection openings 211 of the first row 31 are formed is formed so that the washing water falls from the upper surface of the third layer module 23 and flows to the lower surface, The cleaning water stopper bar 250 protruding downward is formed on the left edge of the extension line of the third heat exchanger 200 and the washing water discharged from the second heat injector 212 is formed to be larger than the discharge pressure of the third heat exchanger 213 And the washing water falls on the upper surface of the second layer module 22 and flows to the lower surface by the medium pressure and high pressure washing water while the third heat injecting port 213 is connected to the second heat injecting port 212 And discharged at a higher pressure than the discharge pressure to cause the wash water to fall on the upper surface of the first layer module 21, Prefabricated top cap is formed by a bond, the separation type ejection opening (210) (200);

A packing engaging groove 190 for engaging the packing 30 is formed at one upper right side of the upper cap 200 and a latching protrusion 120-1 is formed at one side of the right upper end A packing coupling groove 131 for coupling the packing 30 to one side of the upper surface of the other side wall surface is formed and a latching protrusion 130-1 is formed on one side of the upper side The joining portion 130 is formed and the joining groove 140 for joining the panel 280 to the predetermined position of the left bar 108-2 is formed and a known hose The nipple coupling hole 150 is formed for coupling the coupling nipple 160 coupling the mage 170 and the mage coupling holes 170-1 and 170 -2) and forming a function as a supply pipe (50) for supplying washing water supplied from the pump.

In order to engage with the assembled lower frame 400 to be combined and separated, a protrusion bar 310 protruding to the right is formed at one side of the lower end of the right bar 301 with a through- An upper cap 300 having an upper surface;

A packing coupling groove 450 for coupling the packing 30 to one side of the upper end of the right bar 401 is formed so as to engage with the assembled upper cap 300, And a lower frame 400 having a bolt 40 coupling hole 420 and a right protruding bar 410 protruded to the right.

A packing coupling groove 530 for coupling the packing 30 to one side of the right bar 540 is formed in order to engage with the assembled lower frame 600 to be coupled and separated, An upper cap 500 having a right bar 540 formed with a coupling hole 520 of a coupling bolt 40 at a lower end thereof;

And a lower frame 600 having a coupling bolt 40 coupling hole 620 on one side of the upper end of the right bar 601 for coupling with the assembled upper cap 500.

A first thermal spraying port 710 is formed at a predetermined position of the left bar 740 and a first thermal spraying port 740 is formed on the upper surface of the third layer thermal module 73, 710);

The washing water stopper bar 750 protruding downward is formed at the left edge of the extension line of the upper surface 700-1 to block the washing water discharged from the first heat injector 710, A stopper bar 750 having a tool receiving recess 750-1 formed at a predetermined position of the stopper bar 750 so that the wash water falls on the upper surface of the stopper bar 73 and flows to the lower surface;

A second column nozzle hole 720 is formed on the upper surface of the integral upper frame 700 and a second column nozzle hole 730 is formed on the upper surface of the integral upper frame 700, Nozzle coupling holes 720 and 730;

A known nozzle 720 for coupling and separating the combined and separated type injection nozzle 720 to and from the nozzle coupling holes 720 and 730;

A panel 280 is coupled to the panel coupling groove 760 and a nipple coupling hole 790 having a threaded portion formed at a predetermined position of the left bar 740 is formed, 770, and left and right bars 740, 780 joining the margins 170. The left and right bars 740,

A hollow portion 822 is formed on the inner circumferential surface of the second heat injector 812 to form a supply water control bar 820 of a mutually opposing shape, A " C "type supply water control bar 820 formed with a supply water through-hole 821 narrower than the diameter;

A hollow portion 832 is formed on the inner circumferential surface of the third thermal spraying nozzle 813 to form a supply water control bar 830 of a mutually opposing shape and the diameter of the third thermal spraying nozzle 813 Shaped supply water control bar 830 having a wide supply water passage groove 831 formed therein.

The present invention relates to a solar cell module, a solar cell module, a solar cell module, and a solar cell module, Is a structure in which the power generation efficiency is reduced as the temperature rises. As a result, the panel temperature is decreased at the same time as the cleaning, thereby preventing the reduction of the power generation amount and preventing the power generation efficiency from being reduced.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a longitudinal sectional view showing a lower frame and an upper cap according to the present invention joined together. FIG.
2 is a longitudinal cross-sectional view illustrating the lower frame and the upper cap according to the present invention separated from each other.
FIG. 3 is a perspective view of a module according to the present invention assembled with a neighboring module end; FIG.
FIG. 4 is a perspective view of a module and a multi-layer, multi-row perspective view of the panel and frame according to the present invention.
FIG. 5 is a perspective view of a panel and an upper frame according to an embodiment of the present invention. FIG.
FIG. 6 is a right side view of a structure and a panel mount according to the present invention in which a module is mounted on a plurality of rows and a plurality of columns. FIG.
FIG. 7 is a vertical sectional view of a detachable upper frame according to the present invention in which an upper cap and a lower frame are coupled. FIG.
FIG. 8 is a longitudinal sectional view of a detachable upper frame according to the present invention in which an upper cap and a lower frame are coupled. FIG.
9 is a longitudinal sectional view of a separate upper frame according to the present invention, in which a detachable nozzle is coupled.
10 is a perspective view of a module according to the present invention assembled with a neighboring module end.
11 is a longitudinal sectional view showing a delivery pressure adjusting bar of the upper frame jetting port according to the present invention.

The present invention will now be described in detail with reference to the accompanying drawings.

As shown in Figs. 1 to 6

The assembled top cap 200 is formed with a latch 240 having a latching protrusion 240-1 formed at the lower end of one side wall surface thereof so as to be engaged and disengaged and a latching protrusion 202 formed at the lower end of the other side wall face A left bar 230 having a plurality of integral injection openings 211 of a first row 31 is formed at a central fixed position of the left bar 230, In order to prevent the washing water discharged from the injection port 211 of the first column 31 of the three-layer module 23 from dropping to a long distance, a stopper 23 protruded downward from the left edge of the extension line of the upper cap 200, The bar 250 is formed so that the wash water falls on the entire upper surface of the three-layer module 23 so that the wash water flows from the upper surface to the lower surface.

The injection port 212 of the second row 32 of the third layer module 23 forms the discharge direction of the rinsing water at a relatively lower angle than the injection port 213 of the third row 33, The washing water is dropped at a medium distance from the washing water discharged from the spraying port 213 of the third row 33 under the same water pressure condition and the inner side surface of the spraying port 212 is formed with a wedge- And the outer surface of the jetting port 212 is formed to be narrower than the inner surface of the jetting port 212 so that the water pressure of the discharged washing water is discharged at medium and high pressure, The washing water falls down on the upper surface so that the cooling water flows from the upper surface to the lower surface.

The injection port 213 of the third column 33 forms the wash water discharge direction at a relatively higher angle than the injection port of the second column 212 and the second column 212 The inner surface injection port 213 of the injection port 213 forms an injection hole 213 having a wider shape than the outer surface of the injection port 213 and the outer surface of the injection port 213 The surface is formed to have a narrower-pointed injection port 213 narrower than the inner surface so that the washing water falls on the upper surface of the module 21 of the first layer and flows from the upper surface to the lower surface.

In the structure of the photovoltaic modules 21, 22 and 23 provided with a plurality of layers, a supply water supply line 290 is formed in one upper frame 10 located above one third layer module 23, Thereby forming a structure for spraying washing water onto the modules 21, 22, and 23 of the layer.

The same structure is formed when a plurality of neighboring modules (21 21-1. 21-2) are installed in a cradle in each layer, and the washing water supply line is connected to a nipple (16) and a known hose To form an easy supply line.

The assembled lower frame 180 is formed with a packing coupling groove 190 for coupling the packing 30 to the right upper side of the upper frame 200 to prevent leakage of water, The engaging portion 120 having the engaging protrusion 120-1 formed at the upper right side thereof is formed to engage with the engaging piece 240 formed at the lower end of the one side wall of the assembled top cap 200.

A packing coupling groove 131 for coupling the packing 30 to one side of the upper surface of the other side wall surface is formed to prevent the water leakage phenomenon in advance and a latching protrusion 130-1 is formed on one side of the upper end side The engaging portion 130 is formed and engaged with the engaging portion 230 of the lower surface of the other side wall of the assembled top cap 200.

A panel coupling groove 140 for coupling the panel 280 is formed at a predetermined position on the left side to form a panel coupling groove 140 for coupling the panel 280 formed in advance, The nipple 160 is engaged with the threaded nipple coupling hole 150 to supply the washing water sent out from the pump so as to engage the coupling nipple 160 coupling the coupling 15.

The mage engaging hole 170-1 is formed so as to engage with the mage 170 at a plurality of positions on the lower surface side so that foreign matter on the inner surface of the supply pipe 50 and water stuck to the injection hole 210 The mage 170 on both sides is opened to spray cleaning water diluted with the cleaning agent into the one side mage coupling hole 170-1 by the high pressure washer to clean the inside surface of the supply pipe 50, The inner surface of the supply pipe 50 is cleaned by spraying the cleaning water diluted with the high-pressure cleaning agent to the other-side mage hole 171-2, The foreign matter and the water wastewater are formed to escape to the one-side mage holes 171-1, thereby preventing the injection port 210 from being clogged during long-term use.

The coupling nipple 160 is connected to the nipple coupling hole 150 at a predetermined position on the left side bar 180-2 of the lower frame 180 and is connected to the known "L" , "T" -shaped nipple 160 and the hose 15 and the second hose 15 to form a wash water supply line in the modules 23-1, 23-2 adjacent to the third layer thermal module 23 Type connecting socket 160-2 for connecting the neighboring hoses 15 so that a plurality of nipples can be easily coupled and the washing water is supplied.

The assembled upper frame 200, the assembled lower frame 180 and the panel 280 are coupled to each other to mount a completed module on the third layer row 21, 21-1, 21-3, The upper frame 10 of the lower one-layer and two-layer 21 and 22 below the three-layer thermal module 23 is provided with a known frame having no injection port, The washing water discharged from the second and third heat injectors 212 and 213 formed in the plurality of integral injection openings 210 in the upper cap 200 is discharged to the upper surface of the first and second layer modules 21 and 22 Thereby reducing manufacturing costs and eliminating multiple lines of supply lines at the mounting site, thereby reducing material costs and installation costs.

As shown in Fig. 7

The upper cap 300 is formed with a through hole 320 of a coupling bolt 40 on one side of the lower side of the right side wall for coupling with the assembled lower frame 400 to be coupled and separated, A protruding bar 310 protruding to the right is integrally formed with the frame 400.

The lower frame 400 is formed with a packing coupling groove 450 for coupling the packing 30 to the upper right side of the lower frame 400 to prevent leakage, The right protruding bar 410 is formed with the coupling bolt 40 having the screw hole formed on the upper right side thereof and the upper cap 300 and the lower frame 400 are integrated with the coupling bolt 40 When the upper cap 300 is later replaced, or when foreign substances and water stains on the inner surface of the supply pipe 50 are cleaned, the upper cap 300 is separated and cleaned.

As shown in Fig. 8

The upper cap 500 is formed with a packing engagement groove 530 on one side of the right side wall to prevent water leakage in order to engage with the assembled lower frame 600 to be coupled and separated, The right bar 540 having the coupling hole 520 formed with the thread of the coupling bolt 40 is formed on the side of the lower frame 600 and the upper cap 500 and the lower frame 600 are integrated by the coupling bolt 40.

The lower frame 600 has a right bar 610 formed with a coupling bolt 40 through hole 620 on the upper right side thereof for coupling with the assembled upper cap 500, The upper cap 500 is removed and the inside of the supply pipe 50 is cleaned when replacing the upper cap 500 or cleaning the foreign substances and water on the inner surface of the supply pipe 50 .

As shown in Figs. 9 to 11

The first heat injector 710 of the present invention forms a first heat injector 710 at a predetermined position of the left bar 740 so that the washing water falls on the upper surface of the third layer thermal module 73, .

The stopper bar 750 has a washing water stopper bar 750 protruding downward at the left edge of the extension line of the upper surface 700-1 so as to block the washing water discharged from the first heat injector 710 , The washing water falls down on the upper surface of the third layer thermal module 73 and flows to the lower surface. A hole processing tool receiving groove 750-1 is formed at a predetermined position of the stopper bar 750, Thereby forming a hole in the heat injecting opening 710,

The second and third thermal nozzle fitting holes 720 and 730 form a second thermal nozzle fitting hole 720 on the upper surface of the integral upper frame 700 and are connected to the upper surface of the second layer thermal module 72, And the third row thermal coupling hole 730 is formed on the upper surface of the integral upper frame 700 so that the washing water falls on the upper surface of the third layer thermal module 73 and flows to the lower surface Let it flow.

The known nozzle 720 couples the detachable injection nozzle 720 to the nozzle coupling holes 720 and 730 so as to clean the foreign substances and water mist formed in the nozzle 720, Thereby forming a coupling groove 140 for coupling the panel to the position.

The left and right bars 740 and 780 form a panel coupling groove 760 for coupling the panel 280 formed in advance and a coupling nipple 160 for coupling a known hose 15 to a predetermined position on the left side, The nipple coupling hole 790 with the threaded portion is engaged to supply the washing water supplied from the pump and the mage 170 is coupled to the mage coupling hole 770 formed with threads at a plurality of positions on one side of the lower end face, It is preferable that the mage 170 is opened and washed with a high pressure washer.

Further, as shown in Fig. 12

The supply water regulating bar 820 of the second heat injector 812 is operated so that the wash water discharged from the second heat injector 812 is lower in pressure than the discharge pressure of the third heat injector 813 In order to allow the washing water to fall on the upper surface of the second layer module 22 by the high pressure washing water and to flow to the lower surface of the second layer module 22, Shaped supply water control bar 820 in which a hollow portion 822 narrower than the hollow portion 832 formed in the third column injection port 813 is formed and the diameter of the second heat injection port 812 A narrower supply water passage groove 821 is formed so that the diameter of the supply water passage groove 821 is enlarged or reduced to adjust the discharge pressure.

The supply water control bar 830 of the "second" type of the second heat injector 813 is configured such that the wash water discharged from the third heat injector 813 is higher in pressure than the discharge pressure of the second heat injector 812 And the washing water falls on the upper surface of the first layer module 21 by the high pressure washing water and flows to the lower surface of the first layer module 21. In the second row Shaped supply water control bar 830 in which a hollow portion 822 that is wider than the hollow portion 822 formed in the injection port 812 is formed and the supply water through groove 831 is formed in the third row The diameter of the supply water passage groove 831 is made larger or smaller than the diameter of the third column injection hole 812 at the position facing the sphere 813 to adjust the discharge pressure so that the same water pressure And the second layer module 22 is supplied with the medium-distance injection 812, and the medium- And the first layer module 21 is formed with a structure for performing a long distance spray 813, and simultaneously the washing water is sprayed.

The washing water supply line 16 supplies washing water using a known hose, nipple, pipe, pump, drip tank, a filter for filtering foreign substances, etc., and forms a well-known detection sensor, It is preferable to set the temperature so that the pump is automatically operated or stopped when the set temperature is exceeded in accordance with the temperature change of the panel so that damage of the module due to the deterioration phenomenon is prevented in advance.

Claims (5)

The present invention can be applied to the upper frame 10 of the solar modules 21, 22, 23, which removes yellowish and hot panel 281, As a result,
A hook 240 formed with a latching protrusion 240-1 at the lower end of one side wall surface and a latch 230 formed with a latching protrusion 230-1 at the lower end of the other side wall are formed, The left bar 230 on which the plurality of integral injection openings 211 of the first row 31 are formed is formed so that the washing water drops from the upper surface of the third layer module 23 and flows to the lower surface, The washing water stopper bar 250 protruding downward is formed on the left edge of the extension line of the upper cap 200 and the washing water discharged from the second thermal spraying port 212 is discharged through the discharge port 213 of the third thermal spraying port 213 And the wash water falls down on the upper surface of the second layer module 22 to flow to the lower surface by the medium pressure and high pressure wash water while the third heat injector 213 is discharged through the second heat injector 212 ), The washing water falls on the upper surface of the first layer module 21, and is formed so as to flow to the lower surface An assembled upper cap 200 for forming and coupling the body-shaped injection port 210;
A packing engaging groove 190 for engaging the packing 30 is formed at one upper right side of the upper cap 200 and a latching protrusion 120-1 is formed at one side of the right upper end A packing coupling groove 131 for coupling the packing 30 to one side of the upper surface of the other side wall surface is formed and a latching protrusion 130-1 is formed on one side of the upper side The joining portion 130 is formed and the joining groove 140 for joining the panel 280 to the predetermined position of the left bar 108-2 is formed and a known hose The nipple coupling hole 150 is formed for coupling the coupling nipple 160 coupling the mage 170 and the mage coupling holes 170-1 and 170 -2) and forms a role as a supply pipe (50) for supplying the washing water supplied from the pump. Ruthless PV module the upper frame. The method according to claim 1,
A coupling bolt 40 through hole 320 is formed on one side of the lower end of the right bar 301 so as to engage with the assembled lower frame 400 to be coupled and separated, An upper cap 300;
A packing coupling groove 450 for coupling the packing 30 to one side of the upper end of the right bar 401 is formed so as to engage with the assembled upper cap 300, And a lower frame (400) having a bolt (40) coupling hole (420) and a right protruding bar (410) protruding to the right. 3. The method of claim 2,
A packing coupling groove 530 for coupling the packing 30 to one side of the right bar 540 is formed in order to engage with the assembled lower frame 600 to be combined and separated, An upper cap 500 having a right bar 540 formed with a coupling hole 520 of a coupling bolt 40 on one side thereof;
And a lower frame (600) having an engaging hole (620) for an engaging bolt (40) on one side of an upper end of the right bar (601) for engaging with the assembled upper cap (500) Photovoltaic module upper frame. The present invention can be applied to the upper frame 10 of the solar modules 21, 22, 23, which removes yellowish and hot panel 281, As a result,
A first heat injector 710 is formed at a predetermined position of the left bar 740 and the washing water is dropped on the upper surface of the third layer thermal module 73 to flow to the lower surface, ;
The washing water stopper bar 750 protruding downward is formed at the left edge of the extension line of the upper surface 700-1 to block the washing water discharged from the first heat injector 710, A stopper bar 750 having a tool receiving recess 750-1 formed at a predetermined position of the stopper bar 750 so that the wash water falls on the upper surface of the stopper bar 73 and flows to the lower surface;
A second column nozzle hole 720 is formed on the upper surface of the integral upper frame 700 and a second column nozzle hole 730 is formed on the upper surface of the integral upper frame 700, Nozzle coupling holes 720 and 730;
A known nozzle 720 for coupling and separating the combined and separated type injection nozzle 720 to and from the nozzle coupling holes 720 and 730;
A panel 280 is coupled to the panel coupling groove 760 and a nipple coupling hole 790 having a threaded portion formed at a predetermined position of the left bar 740 is formed, 770), and includes left and right bars (740, 780) joining the mage (170). The method according to claim 1,
A hollow portion 822 is formed on the inner circumferential surface of the second heat injection port 812 so as to form a supply water control bar 820 of a mutually opposing shape so that the diameter of the second heat injection port 812 A " C "type supply water control bar 820 formed with a narrow supply water passage groove 821;
A hollow portion 832 is formed on the inner circumferential surface of the third thermal spraying nozzle 813 to form a supply water control bar 830 of a mutually opposing shape and the diameter of the third thermal spraying nozzle 813 Shaped supply water control bar (830) having a wide supply water through groove (831) formed therein.

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