LU101189B1 - A cleaning device and a working method of the inclined solar energy collector - Google Patents

Abstract

The invention discloses a cleaning apparatus and method of operation of the obliquely erected solar energy collector. The solar energy collector is constructed with a guide rail, includes a slide bar with slot slot, which is connected to the guide rail, the water jet drive, which is connected with slot slot, an air jet device that can drive the water jet drive, a wiper device, an ultrasonic cleaning device, the water jet drive and o.g. Air jet device are connected by a partition wall in the middle arcuate hood. The lower solar energy collector is provided with a stop that can not further slide down the water jet drive, so that the water flow forms a vortex in the hood, and at the same time the ultrasonic cleaning device is achieved a better cleaning effect, and the invention realizes a combination of washing, rotating and Vibrate. The invention has a legitimate design and structure, which is advantageous for improving the solar energy absorption to sunlight, for improving the working efficiency of the solar collector, and for extending the life of the solar collector.

Description

Description a cleaning device and a working method of tilted solar energy collector

Technical part

The present invention relates to the field of new energy technologies or a cleaning device and a working method of the obliquely erected solar energy collector.

Technical background

Solar panels are set up outdoors for a long time, which is filled with sand, dust and pollution, these contaminants prevent solar panels from absorbing sunlight and reducing the efficiency of photovoltaic conversion efficiency. If the solar collector is not cleaned in time, the solar collector not only gradually absorbs the sunlight, it also tends to local outbreaks, which impairs the normal use of the solar collector, and therefore regular cleaning is required. At present, the cleaning of the solar collector is usually cleaned with hand-held cleaning tools, which is not only labor-intensive, but also dangerous when solar panel is placed on the roof or unreachable position, and the overall effect is not ideal. If the solar panels are cleaned by robots, it is the most complicated to use and expensive.

Patent application number: 201310038030.7, patent name: a solar collector cleaning system, the invention of the patent: The invention discloses a cleaning device of the

Solar energy collector. The following are included: the one controller, a guide rail located on the left and right sides of the solar collector, a water jet drive, a wiper device, a water supply device for supplying high pressure water to the water jet drive. The water jet drive and wiper are connected by data cable and control. The

The invention uses a soft water pipe and is provided with a series of water jet holes on one side of the surface of the solar collector, and is connected to an arcuate hood with a partition to create a swirling flow of water. At the same time, the water spot will blow on the surface of the solar collector, and the rotation of the brush generated by the flow of water will improve the cleaning efficiency and extend the life of the brush

Solar collector.

Patent application number: 201310178445.4, patent name: a self-cleaning solar collector, the invention of the patent: the invention discloses a self-cleaning solar collector, comprising: a square frame made of aluminum alloy, the o.g. square frame fixes a solar collector body, wherein the solar collector comprises a compressed air flow device, the compressed air flow cleaning device comprises a shower head floating on a surface of the solar collector, the shower head is rectangular and at least one row of nozzles is arranged along the length of the nozzle. Slides are connected to the left and right sides of the nozzle, a slide rail is arranged on the left and right sides of the square frame, the slide is mounted on the slide rail, the nozzle is connected to the telescopic arm, and the gas pipe of the telescopic arm is with the Nozzle connected, and the above Gas pipe is connected to a compressed gas source. The solar collector is provided with a control system for controlling the pressurized gas source and the telescopic arm, and the control system is provided with a timer to time the high pressure gas source and telescopic arm. The invention uses the corresponding guide rail to facilitate the vertical movement of the water pipe and the gas pipe, and does not need to use the telescopic arm, and the air jet device of the cylinder is not installed at the back of the solar collector, but at a suitable operating location, for example, indoors. The nozzle is also enlarged by a duckbill with a hood that connects to an arcuate partition that forms a swirling stream of water, thereby increasing the cleaning surface and at the same time blowing the water spot onto the surface of the solar collector, and listening for the utilization rate of the solar cell.

In order to eliminate the disadvantages of the prior art, the present invention proposes a new simple and easy-to-use solar cell cleaning device.

Presentation of the invention

In view of the disadvantages of the prior art, the object of the invention is to provide a cleaning apparatus and a working method of the obliquely erected solar energy collector. The advantages are as follows: cost reduction, improvement of photovoltaic conversion efficiency, and easy installation on the roof as well as obvious economical

Has advantages.

In order to achieve the above object, the invention provides the following technical solutions:

The solar energy collector includes a slide bar having a slot for slot connected to the guide rail, a water jet drive connected to a slot slot, an air jet device capable of driving water jet propulsion, a wiper device, an ultrasonic cleaner, the above mentioned. Water jet drive and o.g. Air jet device are connected by a curved hood with partition in the middle. The upper and lower sides of the hood are openings parallel to the surface of the solar collector. The lower solar energy collector is provided with a stop that can prevent the water jet drive slide further down, in between:

The above waterjet drive includes a horizontal soft water pipe; a duckbill nozzle connected to one end of the soft water pipe; the above soft water pipe is arranged in the card slot; a water supply device is connected to the other side of the soft water pipe;

The o.g. Air jet device includes an air pump; a connection of the gas pipe; the first pressure pipe; the second pressure tube; the exhaust opening of the o.g. Air pump, is connected to the first pressure tube and the second pressure tube; the first valve is between the air pump and the first pressure tube; the second valve is between the air pump and the second pressure tube; the other side of the first pressure pipe is connected to the connection of the gas pipe; the first pressure tube and the * second pressure tube are mounted in the groove slot.

The ultrasonic cleaner and wiper are mounted in the hood. The wiper device comprises a shaft, a blade, a hollow cylinder and a soft brush, wherein the lower end of the hollow cylinder is arranged in the circumferential direction i with the soft brush and in the hollow cylinder there is through hole with the o.g. Wave; the o.g. Shaft is inserted into the hollow cylinder; the upper side of the shaft is provided with the blade blade; the upper side of the shaft is rotatable along its axis with the soft water pipe; the blade is located inside the soft water pipe.

By applying the above technical solution, in cleaning the tilted solar energy collector, the water supply device is transported to the soft water pipe. During this time, the water flow drives the rotation of the blade in the soft water pipe, and the rotation of the blade drives the brush. The water forms in the arcuate hood with the partition a vortex, which not only saves water by fluid injection, but also improves the cleaning performance, because the water from bottom to top and then from the top second times flushed. This way, front and back the cap is splashed with water on the surface of the solar collector, and the second flush is completed at the same time, the total flushing effect is better, the water flow can also clean the soft brushes, and the splash water flows from top to bottom through the solar panel. At the same time, the second valve is opened, the gas of the second pressure tube forms a certain pressure with the outside air, and the gas outlet at the top of the second pressure tube slowly comes out and with the pressure equalization between the inner and outer pressure of the second pressure tube, the sliding strip moves along the guide rail down, and when it moves to the bottom of the solar collector, the stop prevents the sliding strip to move down; closing the second valve, after the gas is released in the second high-pressure gas pipe behind the soft water line, then opens other first valve, the high-pressure gas is transported by the air pump to the first pressure tube, the

Gas pipe connection, which is removed from the side of the soft water pipe, discharges gas to the outside, so that the soft water pipe and the slide rails and Softwassersrohr is driven back and forth two to three times by a pressure difference between the gas and the Außenlufit up the guide rail the solar collector cleaned.

Further, the soft water pipe is arranged along the lengths of the surface of solar cell many evenly spaced Wasserstrahllöcher.

By adopting the above technical solution, a plurality of water jet holes are opened in the soft water pipe, so that the surface of the solar battery can be washed better, and also to prevent the surface of the solar battery is incompletely cleaned.

Next are the o.g. Water jet holes and the arcuate hood, which gives a partition in the middle, through a duckbill nozzle connects.

Next are the two outer walls between the o.g. second pressure tube (14) and the

Soft water pipe connects, also the second high-pressure gas pipe is arranged obliquely behind the soft water pipe.

By applying the above technical solution, the high-pressure gas is sprayed downward through the second compressed gas pipe, thereby overcoming the gravity of the entire slider, moving the soft water pipe and the slide rail up along the guide rail. When the second high pressure gas tube stops the transport of the high pressure gas. Due to the gravity of the slider itself, the soft water pipe and the slide bar move down along the guide rail, thereby effecting a back and forth purging of the solar collector.

Next is the o.g. first pressure pipe is connected to the port (2) of the other side of the duckbill nozzle in the hood, moreover, it is mounted obliquely above the soft water pipe, which gives a series of water jet holes.

By applying the above technical solution: when the soft water pipe and the slide rails slide down only by their own gravity, when the slide rails and the guide rail are stuck. When high-pressure gas is sprayed up through the first high-pressure gas pipe, this makes it easier for the soft water pipe and the slide rails to descend.

Next is the o.g. Water supply device, which contains water pump and reservoirs, the water inlet of the water pump is connected to reservoirs by pressure tube, the water outlet of the water pump is connected to soft water pipe.

By applying the above technical solution, in the cleaning work, the water pump draws the water in the reservoir through the high pressure water pipe to the soft water pipe, the whole water supply equipment is more convenient, and more convenient for the cleaning process.

Next is a garbage slot at the stop.

By applying the above technical solution, the impurities such as dust and leaves can flow together with the water in the waste slot located at the bottom of the solar collector, thereby facilitating the collection of waste.

The cleaning procedure of the obliquely positioned solar energy collector with cleaning device comprises the following steps:

Step 1: During the cleaning process, the water pump transports the water out of the water

Reservoirs through the pressurized water pipe to the soft water pipe, and meanwhile the water flow will cause the blade in the soft water pipe to turn. Turning the blade will cause the turning of the hollow cylinder and the soft brush. The pressurized water is made to swirl through the duckbill nozzle in the arched hood, which gives a partition in the center. The o.g. Hood is splashed with water on the surface of the solar collector, and the water flow can also clean the soft brush, and the sprayed water flows along the solar collector flowing from top to bottom;

Step 2: Open the second valve, with the air pump, high pressure gas is transported to the second pressure tube, which lies diagonally below the soft water pipe with a series of Wasserstrahllöchem. The gas of the second pressure tube forms a certain pressure level with the outside air, and the gas outlet at the top of the second pressure tube slowly goes out and with the pressure balance between the inner and outer pressure of the second pressure tube, the sliding strip moves down along the guide rail, and if When it moves to the bottom of the solar collector, the stop blocks the sliding strip downwards;

Step 3: Close the second valve, after the gas in the second pressure tube, which is released obliquely behind the soft water pipe with a series of Wassersprühlöchem, then opens a first valve, the high pressure gas is transported by the air pump to the first pressure tube, the gas pipe connection , which is removed from the side of the soft water pipe, discharges gas to the outside, so that the soft water pipe and the slide bar are driven upward by a pressure difference between the gas and the outside air along the guide rail;

Step 4: During the upward movement, the gas is simultaneously supplied to the soft water pipe, so that the solar collector is blown dry and the impurities or admixture flow together with the water to the waste slot of the solar collector.

In summary, the invention has the following effects:

By applying the above technical solution, the water supply device is transported to the soft water pipe when cleaning the obliquely erected solar energy collector. During this time, the water flow drives the rotation of the blade in the soft water pipe, and the rotation of the blade drives the brush. The water forms in the arcuate hood with the partition a vortex, which not only saves water by fluid injection, but also improves the cleaning performance, because the water is flushed from bottom to top and then from the top second times. This way, front and back the hood is splashed with water on the surface of the solar collector, and the second flush is completed at the same time, the overall flushing effect is better, the water flow can also clean the soft brushes, and the splash water flows from top to bottom through the solar collector. At the same time, the second valve is opened, the gas of the second pressure tube forms a certain pressure with the outside air, and the gas outlet at the top of the second pressure tube slowly comes out and with the pressure equalization between the inner and outer pressure of the second pressure tube, the sliding strip moves along the guide rail down, and when it moves to the bottom of the solar collector, the stop prevents the sliding strip to move down; closing the second valve, after the gas in the second high-pressure gas pipe is released behind the soft water pipe, other first valve opens, the Eloch pressurized gas is transported to the first pressure pipe by the air pump, the gas pipe joint, which is away from the side of the soft water pipe, lets gas outwards, so that the soft water pipe and the slide rails and soft water pipe are driven upwards by a pressure difference between the gas and the outside air along the guide rail, two to three times back and forth movement of the solar panel is cleaned, also the impurities or admixture together with the water to the garbage slot of the solar collector.

Description of the attached picture

Figure 1 is a schematic structural view of the cleaning device of inclined solar energy collector with cleaning device;

Figure 2 is a schematic structural view of a hood;

In the picture: 1 duckbill nozzle; 2 connection of the gas pipe; 3 hood; 4 partition; 5 ultrasonic cleaning device; 6 wave; 7 wing blade; 8 hollow cylinders; 9 soft brush 10 solar panels; 11 rails; 12 soft water pipe; 13 first high pressure pipe; 14 second high-pressure gas pipe; 15 water pump; 16 high pressure water pipe; 17 reservoirs; 19 the first valve; 20 the second valve; 21 the air outlet; 22 the waste tub; 23 stop; 24 the card slot.

Detailed procedure

Implementation example:

The invention is described in detail with enclosed image 1-2.

A cleaning device of the diagonally positioned solar energy collector: as shown in Figure 1-2, the solar energy collector cleaning device is installed on a slanted

Solar energy collector 10 installed, the solar energy collector 10 along is much uniformly distributed guide rails 11; the cleaning device includes a slide bar with grooved slot 24 which is connected to the guide rail 11, a water jet drive, which is connected with Nutenschlitz 24, an air jet device which can drive the water jet drive, a wiper device, an ultrasonic cleaning device 5, the water jet drive and the air jet device by a are connected with partition in the middle 4 arcuate hood 3. The lower side of the solar energy collector 10 is provided with a stop 23, the

Water jet drive can not continue to slide down, in between:

The waterjet drive includes a horizontal soft water pipe 12; a duckbill nozzle 1 connected to one end of the soft water pipe 12; the soft water pipe 12 is disposed in the card slot 24; a water supply device is connected to the other side of the soft water pipe 12 12;

The air jet device includes an air pump 18; a connection of the gas pipe 2; the first pressure pipe 13; the second pressure pipe 14; the exhaust port of the air pump 18 is connected to the first pressure pipe and the second pressure pipe; the first valve 19 is between the air pump 18 and the first pressure pipe 13; the second valve 20 is between the air pump 18 and the second pressure pipe 14; the other side of the first pressure pipe 13 is connected to the port of the gas pipe 2; the first pressure pipe 13 and the second pressure pipe 14 are arranged in the groove slot 24.

The ultrasonic cleaning device, which works with the media fluidizing water in the hood 3, and the wiper device are mounted inside the hood 3; the wiper device comprises a shaft 6, a blade 7, a hollow cylinder 8 and a soft brush 9, wherein the lower end of the hollow cylinder 8 is arranged in the circumferential direction i with the soft brush 9 and in the hollow cylinder 8 there is through hole with the o.g. Wave 6; the o.g. Shaft 6 is inserted into the hollow cylinder 8; the upper side of the shaft 6 is provided with the blade 7; the upper side of the shaft 6 is rotatable along its axis with the soft water pipe 12; the blade 7 is located inside the soft water pipe 12.1n in the exemplary embodiment, the No. 5 ultrasonic cleaner uses the invention with the publication number CN101395704B. In the example, the curved surface of the hood 3 is 96 degrees, the curved surface of the partition wall 4 is 83 degrees, the angle between the duckbill nozzle 1 and the solar collector 10 is 120 degrees, the vortex is formed by the water flow in the hood 3 and the partition wall 4 , The use of fluid water injection not only saves water resources, but also good for cleaning the surface of solar panel 10, because part of the water in the hood 3 parallel to the opening of the solar collector 10 flows through the lower end of the hood 3, another part of the water flow is ejected in parallel to the solar collector 10 due to the eddy current effect from the top end opening of the hood, and the secondary scavenging improves the cleaning quality due to the gravity of the water flowing through the solar collector 10.

Soft water pipe 12 along the longitudinal direction of the surface of solar cell plate (10), there are many evenly spaced water jet holes.

The water jet holes and the arcuate hood 3, which gives a partition 4 in the middle, through a duckbill nozzle 1 connects.

The two outer walls of the second pressure tube 14 and the soft water pipe 12 are connected, also the second high-pressure gas pipe 14 is arranged obliquely behind the soft water pipe 12. The gas outlet opening of the second pressure tube 14 is adjusted upward.

The first pressure pipe 13 is connected to the port 2 of the other side of the duckbill nozzle in the hood 1, moreover, it is mounted obliquely above the soft water pipe 12 that there are a series of water jet holes. The gas outlet opening of the first pressure tube 13 (in the

Figure is not shown) is set down.

The water supply device includes water pump 15 and reservoirs 17, the water inlet of Wasserpumpel5 is connected to reservoirs 17 by pressure tube, the water outlet of the water pump 15 is connected to soft water pipe. In the exemplary embodiment, the water pump 15 uses the known micro-water pump WKA 1300, which has the ability to pump water and gas. Since the water pump has two abilities to pump water and gas, the medium is also converted from water to gas supplied by the pump 15 to the long water pipe when the water in the reservoir is depleted and the surface of the solar collector is cleaned. At the same time, the medium is also converted to gas by water sprayed from the duckbill nozzle 1, the duckbill nozzle 1 shoots gas to the hood 3, and then sprays it onto the surface of the solar collector to perform a function of drying the surface of the solar collector

Reach solar panel.

A waste slot 22 is disposed on the stopper 23.

The cleaning device and cleaning method of the tilted solar energy collector comprises the following steps:

Step 1: During the cleaning process, the water pump 15 transports the water from the reservoir 17 through the pressurized water pipe 16 to the soft water pipe 12, and meanwhile the water flow will cause the airfoil 7 in the soft water pipe to rotate. The turning of the blade 7 will cause the turning of hollow cylinder 8 and the soft brush 9. The pressurized water will form vortices through the duckbill nozzle 1 in the arcuate hood which forms a partition in the center. The o.g. Hood 3 is sprayed with water on the surface of the solar collector 10 around, and the water flow can also clean the soft brush 9, and the sprayed water flows along the

Solar collector 10 flows from top to bottom 10;

Step 2: opening the second valve 20, with the air pump 18 high-pressure gas is transported to the second pressure tube, which lies obliquely down the soft water pipe with a series of Wasserstrahllöchem. The gas of the second pressure pipe 14 forms a certain pressure level with the outside air, and the gas outlet 21 at the top of the second pressure pipe 14 slowly goes out and with the pressure balance between the inner and outer air pressure of the second pressure pipe 14, the sliding strip moves along the guide rail 11th down, and when it moves to the bottom of the solar collector 10, the stopper 23 blocks the sliding strip move down;

Step 3: Close the second valve 20, after the gas in the second pressure tube 14, which is released obliquely behind the soft water pipe 12 with a series of Wassersprühöchem, then opens a first valve 19, the high pressure gas is through the air pump 18 to the first Pressure pipe 13 transports the gas pipe port 2, which is removed from the side of the soft water pipe 12, discharges gas to the outside, so that the soft water pipe 12 and the sliding rod are driven upward by a pressure difference between the gas and the outside air along the guide rail 11;

Step 4: During the upward movement, the gas is simultaneously supplied to the soft water pipe 12 so that the solar collector 10 is blown dry and the impurities or admixture flow together with the water to the waste slot 22 of the solar collector.

Working principle: During the cleaning, the water pump 15 transports the water from the reservoir 17 through the pressurized water pipe 16 to the soft water pipe 12, and meanwhile the water flow will cause the airfoil 7 in the soft water pipe to rotate. The turning of the blade 7 will cause the turning of the hollow cylinder 8 and the soft brush 9. The pressurized water will swirl through the

Duck beak nozzle in the arched dome, which gives a partition in the middle forms. For this purpose, a part of the water in the hood 3 is sprayed from the opening of the hood. The hood 3 is splashed with water on the surface of the solar collector 10 around, and the water flow can also clean the soft brush 9, and the sprayed water flows along the solar collector 10 from top to bottom 10 flows; At the same time, the second valve 20 is opened, with the air pump 18 high-pressure gas is transported to the second pressure tube, which lies obliquely down the soft water pipe with a series of Wasserstrahllöchem. The gas of the second pressure pipe 14 forms a certain pressure level with the outside air, and the gas outlet 21 at the top of the second pressure pipe 14 slowly goes out and with the pressure balance between the inner and outer air pressure of the second pressure pipe 14, the sliding strip moves along the guide rail 11th down, and when it moves to the bottom of the solar collector 10, the stopper 23 blocks the sliding strip move down; Close the second valve 20, after the gas in the second pressure tube 14, which is released obliquely behind the soft water pipe 12 with a series of Wassersprühöchem, then opens a first valve 19, the high pressure gas is transported by the air pump 18 to the first pressure pipe 13 the gas pipe port 2, which is removed from the side of the soft water pipe 12, discharges gas to the outside, so that the soft water pipe 12 and the slide rails are driven upward by a pressure difference between the gas and the outside air along the guide rail 11; Two to three times back and forth movement, the solar panel is totally cleaned. In addition, the impurities or admixture together with the water to the waste slot 22 of the

Solar panel flow.

The embodiment is only an explanation of the invention, and it is not intended to limit the invention itself. After reading this description, a professional in this area can make modifications as needed, if there is no creative change. But all are patent protected as long as it is within the scope of the claims of the invention.

Claims (8)

claim 1. A cleaning device of obliquely placed solar energy collector: o.g. Cleaning device of the solar energy collector is installed on a tilted solar energy collector (lO), its peculiarity are: the solar energy collector (10) along is much evenly distributed guide rails (11); above-mentioned Cleaning apparatus includes a slide bar having a slit groove (24) connected to the guide rail, a water jet drive connected to slotted slot (24), an air jet apparatus capable of driving the water jet drive, a wiper, an ultrasonic cleaner (5), the above water jet drive and the above Air jet device by a partition wall in the means (4) arcuate hood (3) are connected. The lower side of the solar energy collector (10) is provided with a stop (23) which can not slide the water jet drive further down, in between: the above waterjet drive includes a horizontal soft water pipe (12); a duckbill nozzle (1) connected to one end of the soft water pipe (12); the above soft water pipe (12) is disposed in the card slot (24); a water supply device is connected to the other side of the soft water pipe (12); The above air jet device includes an air pump (18); a connection of the gas pipe (2); the first pressure pipe (13); the second pressure pipe (14); the exhaust port of the above air pump (18) is connected to the first pressure pipe and the second pressure pipe; the first valve (19) is between the air pump (18) and the first pressure pipe (13); the second valve (20) is between the air pump (18) and the second pressure pipe (14); the other side of the first pressure pipe (13) is connected to the connection of the gas pipe (2); the first pressure tube (13) and the second pressure tube (14) are mounted in the groove slot (24). The ultrasonic cleaning device (5), which works with the media fluidizing water in the hood (3), and the wiper device are mounted inside the hood (3); the wiper device comprises a shaft (6), a blade (7), a hollow cylinder (8) and a soft brush (9), wherein the lower end of the hollow cylinder (8) is arranged in the circumferential direction i with the soft brush (9) and in the hollow cylinder (8) there is through hole with the above Shaft (6); the o.g. Shaft (6) is inserted into the hollow cylinder (8); the upper side of the shaft (6) is provided with the blade (7); the upper side of the shaft (6) is rotatable along its axis with the soft water pipe (12); the blade (7) is located within the soft water pipe (12). 2. According to claim 1 explanatory, the cleaning device of the obliquely erected solar energy collector has the following characteristics: soft water pipe (12) along the longitudinal direction of the surface of the solar cell plate (10), there are many evenly spaced Wasserstrahllöcher. 3. According to claim 2 explanatory, the cleaning device of the obliquely erected solar energy collector has the following characteristics: the o.g. Water jet holes and the arcuate hood, which gives a partition in the middle, through a duckbill nozzle (1) connects. 4. According to claim 3 explanatory, the cleaning device of the obliquely erected solar energy collector has the following characteristics: the two outer walls of the above second pressure tube (14) and the soft water pipe (12) are connected, also the second high-pressure gas pipe (14) is obliquely behind the soft water pipe (12 ) arranged. 5. According to claim 4 explanatory, the cleaning device of the obliquely erected solar energy collector has the following characteristics: the o.g. first pressure pipe (13) is connected to the port (2) of the other side of the duck billet nozzle in the hood (1); moreover, it is mounted obliquely above the soft water pipe (12) which gives a series of water jet holes. 6. According to claim 5 explanatory, the cleaning device of the obliquely erected solar energy collector has the following characteristics: the o.g. Water supply device includes water pump (15) and reservoirs (17), the water inlet of the water pump (15) is connected to reservoir (17) by pressure tube, the water outlet of the water pump (15) is connected to soft water pipe. 7. According to claim 6 explanatory, the cleaning device of the obliquely erected solar energy collector has the following features: a waste slot (22) on the stop (23). 8. According to claim 7 explanatory, the cleaning device of the obliquely erected solar energy collector has the following features: comprises the following steps: Step 1: During the cleaning process, the water pump (15) transports the water from the reservoir (17) through the pressurized water pipe (16) to the soft water pipe (12), and meanwhile the flow of water will cause the blade (7) in the soft water pipe to turn. Turning the blade (7) will cause the turning of the hollow cylinder (8) and the soft brush (9). The pressurized water is made to swirl through the duckbill nozzle (1) in the arched hood, which gives a partition in the center. The o.g. Hood (3) is sprayed with water on the surface of the solar collector (10) around, and the water flow can also clean the soft brush (9), and the sprayed water flows along the solar collector (10) from top to bottom (10) flows ; Step 2: Opening the second valve (20), with the air pump (18) high pressure gas is transported to the second pressure tube, which lies obliquely down the soft water pipe with a series of Wasserstrahllöchem. The gas of the second pressure pipe (14) forms a certain pressure strength with the outside air, and the gas outlet (21) on the top of the second pressure pipe (14) goes out slowly and with the pressure equalization between the inner and outer air pressure of the second pressure pipe (14). the sliding strip moves downwards along the guide rail (11), and when it moves to the bottom of the solar collector (10) the stop (23) blocks the sliding strip from moving downwards; Step 3: Close the second valve (20) after the gas in the second pressure tube (14) released obliquely behind the soft water tube (12) with a series of water spray holes opens a first valve (19), the high pressure gas is transported by the air pump (18) to the first pressure pipe (13), the gas pipe connection (2), which is removed from the side of the soft water pipe (12), discharges gas to the outside, so that the soft water pipe (12) and the slide bar driven upward by a pressure difference between the gas and the outside air along the guide rail (11); Step 4: During the upward movement, the gas is simultaneously supplied to the soft water pipe (12), so that the solar collector (10) is blown dry and the impurities or admixture flow together with the water to the waste slot (22) of the solar collector.