CN115889249A - Self-cleaning system for rainwater recovery of daylighting roof - Google Patents

Abstract

The invention discloses a daylighting roof rainwater recovery self-cleaning system, which comprises a rainwater collection unit, wherein the rainwater collection unit comprises a water collector, and the inlet end of the water collector is opposite to the lowest position of daylighting roof glass, so that water flow on the daylighting roof glass enters the water collector; and one end of the water flow guiding unit is connected with the bottom of the water collector. The application provides a self-cleaning system is retrieved to daylighting top rainwater, simple structure is reasonable, installation convenient to use. The rainwater collecting unit can collect rainwater to be used as glass cleaning water, so that the purpose of saving water is achieved. The water flow guide unit and the sliding cleaning unit can be used in a matched mode to clean the daylighting roof glass. Personnel are not needed in the whole process, and the automatic cleaning of the daylighting roof glass can be realized. The system has the advantages of high safety, water and energy conservation, good cleaning effect and the like, and is worthy of large-area popularization and use.

Description

Self-cleaning system for rainwater recovery of daylighting roof

Technical Field

The invention relates to the technical field of architectural decoration, in particular to a self-cleaning system for recovering rainwater on a daylighting roof.

Background

With the development of construction business in China, the construction of a large number of civil buildings and various types of glass daylighting roofs also begin to be widely applied to hotels and restaurants, stations, airport terminals, commercial cities, department stores, exhibition halls, gymnasiums, museums, hospitals and the like.

The glass daylighting roof can introduce a large amount of natural light for the building, but is easily polluted by dust, sundries, rainwater and the like, so that the daylighting effect and the impression are influenced. However, since dust and the like in the external environment are large, thick dust or impurities can be deposited on the glass daylighting roof after the glass daylighting roof is used for a long time, and the light transmittance of the glass daylighting roof is seriously affected. Requiring periodic cleaning by a human. In order to ensure the cleanness of the daylighting roof, the daylighting roof needs to be cleaned frequently, but the conventional cleaning mode consumes water and electricity.

Therefore, how to provide a glass roof cleaning system capable of saving water is a technical problem to be solved by those skilled in the art.

Disclosure of Invention

The invention provides a self-cleaning system for rainwater recovery on a daylighting roof.

The invention provides the following scheme:

a daylighting top rainwater recovery self-cleaning system, comprising:

the rainwater collecting unit comprises a water collector, and the inlet end of the water collector is opposite to the lowest position of the daylighting roof glass, so that water flow on the daylighting roof glass enters the water collector;

one end of the water flow guiding unit is connected with the bottom of the water collector, and the other end of the water flow guiding unit extends to the highest position of the daylighting roof glass;

the sliding cleaning unit comprises a plurality of sliding rails and a plurality of pulleys which are correspondingly connected with the sliding rails one by one; the pulley is connected with a cleaning brush, and at least one part of bristles of the cleaning brush is in contact with the daylighting roof glass; the sliding rail is arranged on the daylighting roof steel beam, and the axial direction of the sliding rail extends along the inclined direction of the daylighting roof glass; the plurality of pulleys move along the plurality of slide rails so that the cleaning brush can reciprocate along the inclination direction of the daylighting roof glass.

Preferably: the entry end of water collector is provided with the filter screen subassembly, the filter screen subassembly is including the coarse strainer and the fine filter screen of arranging from top to bottom.

Preferably: the water flow guiding unit comprises a water pump and a water pipe, the inlet end of the water pump is connected with the bottom of the water collector, one end of the water pipe is connected with the outlet end of the water pump, and the other end of the water pipe extends to the highest position of the daylighting roof glass.

Preferably: a water quality purification assembly is arranged between the inlet end of the water pump and the bottom of the water collector, and the inlet end of the water pump is connected with a cleaning agent feeder.

Preferably: the sliding rail comprises a rail base and a rail upper cover which are detachably connected, the bottom of the rail base is connected with the daylighting roof steel beam, and the rail upper cover is connected with the upper part of the rail base; the pulley is positioned between the track base and the track upper cover.

Preferably: the pulley comprises a wheel carrier, wherein two rotating wheels are coaxially arranged on the wheel carrier, wheel grooves are formed in the outer sides of the rotating wheels, the sliding rail base and the sliding rail upper cover are respectively provided with bulges extending along the respective axial direction, and the rotating wheels are respectively in one-to-one correspondence with the sliding rail base and the respective bulges of the sliding rail upper cover in a matched mode.

Preferably: the wheel carrier further comprises a cleaning brush connecting part, and the cleaning brush connecting part is located on the side face of the wheel carrier and used for being connected with the cleaning brush.

Preferably: the sliding trolley comprises a sliding trolley cabin, one end of the sliding trolley cabin is located at the highest position of the daylighting roof glass, and the sliding rail extends into the sliding trolley cabin so that the sliding trolley can enter and exit the sliding trolley cabin.

Preferably: the wind generating set is connected with the top of the trolley bin, and the storage battery is located in the trolley bin and electrically connected with the wind generating set.

Preferably: the daylighting roof glass comprises photovoltaic glass, and the photoelectric conversion and storage component is electrically connected with the photovoltaic glass.

According to the specific embodiment provided by the invention, the invention discloses the following technical effects:

by the invention, a daylighting roof rainwater recovery self-cleaning system can be realized, and in one implementation mode, the system can comprise a rainwater collection unit, wherein the rainwater collection unit comprises a water collector, and the inlet end of the water collector is opposite to the lowest position of the daylighting roof glass, so that water flow on the daylighting roof glass enters the water collector; one end of the water flow guiding unit is connected with the bottom of the water collector, and the other end of the water flow guiding unit extends to the highest position of the daylighting roof glass; the sliding cleaning unit comprises a plurality of sliding rails and a plurality of pulleys which are correspondingly connected with the sliding rails one by one; the pulley is connected with a cleaning brush, and at least one part of bristles of the cleaning brush is in contact with the daylighting roof glass; the sliding rail is arranged on the daylighting roof steel beam, and the axial direction of the sliding rail extends along the inclined direction of the daylighting roof glass; the plurality of pulleys move along the plurality of slide rails so that the cleaning brush can reciprocate along the inclination direction of the daylighting roof glass. The application provides a daylighting top rainwater is retrieved from cleaning system, simple structure is reasonable, installation convenient to use. The rainwater collecting unit can be used for collecting rainwater as glass cleaning water, so that the purpose of saving water is achieved. The water flow guide unit and the sliding cleaning unit can be used in a matched mode to clean the daylighting roof glass. Personnel are not needed in the whole process, and the automatic cleaning of the daylighting roof glass can be realized. The system has the advantages of high safety, water and energy conservation, good cleaning effect and the like, and is worthy of large-area popularization and use.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a daylighting roof rainwater recovery self-cleaning system provided by an embodiment of the present invention;

FIG. 2 is a schematic view of a combination of a sled and a track according to an embodiment of the present invention;

FIG. 3 is a schematic view of a pulley and a slide rail in a split manner according to an embodiment of the present invention;

FIG. 4 is a schematic view of a slide cleaning unit according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a daylighting roof rainwater recovery self-cleaning system provided by an embodiment of the invention, which comprises a wind generating set;

fig. 6 is a schematic structural diagram of a daylighting roof rainwater recovery self-cleaning system including a photoelectric conversion and storage module according to an embodiment of the present invention.

In the figure: the device comprises a rainwater collection unit 1, a water collector 11, a coarse filter screen 12, a fine filter screen 13, a water flow guide unit 2, a water pump 21, a water pipe 22, a water quality purification component 23, a cleaning agent adder 24, a sliding cleaning unit 3, a sliding rail 31, a rail base 311, a rail upper cover 312, a pulley 32, a wheel carrier 321, a rotating wheel 322, a cleaning brush connecting part 323, a pulley bin 324, a cleaning brush 33, a daylighting roof glass 4, a daylighting roof steel beam 5, a wind generating set 6, a storage battery 7 and a photoelectric conversion and storage component 8.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments that can be derived by one of ordinary skill in the art from the embodiments given herein are intended to be within the scope of the present invention.

Examples

Referring to fig. 1, 2, 3, 4, 5 and 6, a daylighting roof rainwater recovery self-cleaning system according to an embodiment of the present invention is provided, as shown in fig. 1, the system may include:

the rainwater collecting unit 1 comprises a water collector 11, and the inlet end of the water collector 11 is opposite to the lowest position of the daylighting top glass 4, so that water flow on the daylighting top glass 4 enters the water collector 11;

one end of the water flow guiding unit 2 is connected with the bottom of the water collector 11, and the other end of the water flow guiding unit 2 extends to the highest position of the daylighting roof glass 4;

the cleaning device comprises a sliding cleaning unit 3, wherein the sliding cleaning unit 3 comprises a plurality of sliding rails 31 and a plurality of pulleys 32 which are correspondingly connected with the plurality of sliding rails 31 one by one; the pulley 32 is connected with a cleaning brush 33, and at least a part of bristles of the cleaning brush 33 is in contact with the daylighting roof glass 4; the sliding rail 31 is arranged on the daylighting roof steel beam 5, and the axial direction of the sliding rail 31 extends along the inclined direction of the daylighting roof glass 4; the plurality of pulleys 32 move along the plurality of slide rails 31 to reciprocate the cleaning brush 33 in the direction of inclination of the sunroof glass 4.

The self-cleaning system is retrieved to daylighting top rainwater that this application embodiment provided can collect the rainwater on the daylighting top glass 4 to the water collector 11 in through rainwater collection unit 1, regards the water in the water collector 11 as the use of later stage daylighting top glass 4 washing water. Other water sources are not needed, and the purpose of saving water can be effectively achieved.

Meanwhile, the water in the water collector 11 can be guided to the highest position of the daylighting top glass 4 through the provided water flow guide unit 2, so that when the daylighting top glass 4 is cleaned, the water flow can flow to the lowest position along the highest position of the daylighting top glass 4, and the purpose of cleaning dirt on the surface of the daylighting top glass 4 is achieved.

In addition, the pulley 32 included in the sliding cleaning unit 3 can drive the cleaning brush 33 to reciprocate along the slide rail 31, and because the bristles of the cleaning brush 33 are in contact with the daylighting roof glass 4, stubborn stains on the daylighting roof glass 4 can be brushed off, and the cleanness of the daylighting roof glass 4 can be ensured to meet the requirement by matching with the water flow provided by the water flow guiding unit 2. This system is carrying out the cleaning process to daylighting top glass 4, and whole journey need not personnel and climbs the upper portion of daylighting top glass 4, can effectually avoid when cleaning because the high and wet potential safety hazard that brings of daylighting top, has liberated the labour and has improved clear degree of safety and clean efficient.

It can be understood that the water collector 11 that this application embodiment provided is the part that is used for depositing the rainwater of collecting, the rainwater of collecting can be deposited in its inside for a long time, when the rainwater is comparatively frequent, can spill over by its upper portion after water collector 11 is inside being filled up, for make rivers can not cause harmful effects to the building when spilling over, the top of water collector 11 and the outer wall junction of building can adopt to set up corresponding support sheet metal component and connect, then set up structural adhesive and sealing strip in the clearance position, place the rivers that spill over and get into in the outer wall of building.

Simultaneously, circular structure can be made into to the bottom of this water collector 11, is favorable to collecting dirt impurity such as the precipitate that produces, and convenience of customers clears up simultaneously. In order to conveniently clean the inside dirt, a dirt cleaning opening can be formed in the side wall of the water collector 11, and the impurities collected at the bottom are cleaned through the dirt cleaning opening. Before cleaning, the water inside the water collector 11 can be discharged to other positions of the building through the water flow guiding unit 2, so that the water can not enter the water collector 11 again. It is also possible to use a means for closing the top of the water collector 11 to prevent the water from re-entering the water collector 11. The water in the water collector 11 can be cleaned after being discharged. The dirt cleaning can be performed from the top of the water collector 11 or can be performed by adopting a cleaning port.

In addition, because in the in-service use, collector 11 when collecting the rainwater, the great impurity of granule may appear to exist on daylighting top glass 4, in order to prevent that the impurity of big granule from getting into collector 11, this application embodiment can also provide collector 11's entry end is provided with the filter screen subassembly, the filter screen subassembly includes coarse strainer 12 and the fine filter screen 13 of arranging from top to bottom. The filter screen assembly can filter large-sized impurities such as branches and leaves. This filter screen subassembly can adopt the detachable mode to link to each other with water collector 11, conveniently clears up or changes the filter screen subassembly.

The rivers guide unit 2 that this application embodiment provided is used for leading the water in the water collector 11 to daylighting top glass 4's highest position department, for this, this application embodiment can provide rivers guide unit 2 includes water pump 21 and water pipe 22, water pump 21's entry end with the bottom of water collector 11 links to each other, the one end of water pipe 22 with water pump 21's exit end links to each other, the other end of water pipe 22 extends to daylighting top glass 4's highest position department. The water pipe 22 that this application embodiment provided can set up in building major structure's girder steel, is guided to daylighting top glass 4's highest position department behind the girder steel.

Because when cleaning daylighting top glass 4, need purify the water in the water collector 11 and probably need use the sanitizer simultaneously and just can be with the clean condition of glass surface, for this reason, this application embodiment can provide water pump 21's entry end with be provided with water purification subassembly 23 between the bottom of water collector 11, water pump 21's entry end is connected with cleaner adder 24. Can be so that the water back purification treatment that gets into in the rivers guide element 2 through water purification subassembly 23, can add the cleaning machine to the rivers guide element in through cleaner adder 24 to finally be sprayed on daylighting top glass 4, cooperation cleaning brush 33 can guarantee that daylighting top glass 4 is clean.

The slide rail 31 and the pulley 32 that this application embodiment provided are aimed at, can carry cleaning brush 33 reciprocating motion on glass, make cleaning brush 33 can clean daylighting top glass 4, reach good clean effect. Specifically, as shown in fig. 2, 3 and 4, the slide rail 31 includes a rail base 311 and a rail upper cover 312 that are detachably connected, the bottom of the rail base 311 is connected to the daylighting roof steel beam 5, and the rail upper cover 312 is connected to the upper portion of the rail base 311; the trolley 32 is located between the rail base 311 and the rail upper cover 312. The rail upper cover 312 can be fixed with the base of the sliding rail 31 through screws, so that the mounting, dismounting and maintenance are convenient, and the internal pulley is overhauled and replaced.

Slide rail 31 that this application embodiment provided comprises detachable track base 311 and track upper cover 312, when carrying out coaster 32 installation, can separate track upper cover 312 and track base 311 earlier, then place coaster 32 on track base 311, again with track upper cover 312 and track base 311 link to each other can accomplish coaster 32's installation. In this way, the tackle 32 can be quickly installed and can be conveniently detached, maintained and replaced. In practical application, one or two sets of pulleys 32 may be disposed on each sliding rail 31 as required, and when the sliding rail 31 is on the outermost side, one pulley 32 may be disposed on one sliding rail 31. When the slide rail 31 is in the middle position, two sets of pulleys 32 can be arranged on one pulley 32 so as to be connected with the cleaning brushes 33 on the two sides of the slide rail 31, and good support can be formed for the cleaning brushes 33.

Specifically, in order to guarantee that the coaster 32 that this application embodiment provided can smooth operation, this application embodiment can also provide coaster 32 includes wheel carrier 321, two runners 322 have been arranged to the same axial on the wheel carrier 321, the outside of runner 322 is provided with the race, slide rail 31 base and slide rail 31 upper cover is provided with respectively along respective axially extended arch, two the respective race of runner 322 respectively one-to-one with slide rail 31 base and the respective protruding cooperation of slide rail 31 upper cover is connected. The wheel frame 321 further includes a cleaning brush connecting part 323, and the cleaning brush connecting part 323 is located at a side surface of the wheel frame 321 for connecting with the cleaning brush 33. Each pulley 32 adopts the mode that two rotating wheels 322 are arranged up and down, so that the rotating wheels 322 are respectively contacted with the upper cover of the sliding rail 31 and the base of the sliding rail 31, the upper cover of the sliding rail 31 provides downward pressure for the pulley 32, the pulley 32 provides downward pressure for the cleaning brush 33, and the cleaning brush 33 is ensured to have enough force to clean glass.

The pulley 32 is installed between the base of the slide rail 31 and the upper cover of the slide rail 31, and is clamped by the base and the upper cover to prevent derailment. The pulley 32 has a structure of upper and lower double-row pulleys, and the upper row pulley is used for ensuring smooth movement of the pulley 32 by rotation when bearing the downward pressure of the upper cover of the slide rail 31. The pulley 32 is externally provided with a connecting portion formed by a double-layered clip for holding the cleaning brush 33 and fixing the cleaning brush 33 by a machine screw. Two sets of pulleys 32 can be respectively installed on two sides of the sliding rail 31, the two sets of pulleys 32 are mutually independent, cleaning operation can be independently carried out, and flexibility of use of the system is improved. It can be understood that, each rotating wheel provided by the embodiment of the present application may be provided with a motor of the hub, so that each rotating wheel may generate walking power by itself after being electrified.

In order to store the trolley 32 provided by the embodiment of the present application when not in use, the embodiment of the present application may further provide a trolley chamber 324, one end of the trolley chamber 324 is located at the highest position of the daylighting roof glass 4, and the slide rail 31 extends into the trolley chamber 324, so that the trolley 32 can enter and exit the trolley chamber 324. The trolley chamber 324 can be arranged on the roof of a building, and the slide rail 31 extends into the trolley chamber 324, so that the trolley 32 can freely enter and exit the trolley chamber 324, and when the trolley 32 is not used, the trolley enters the trolley chamber 324 for storage.

It can be understood that the cleaning system provided in the embodiment of the present application includes electrical components such as the water quality purifying assembly 23, the water pump 21, the pulley 32, and the like, and a mains supply cable may be adopted to supply power to each electrical component. In order to further improve the energy saving and environmental protection characteristics of the system provided in the embodiment of the present application, in an implementation manner, as shown in fig. 5, the embodiment of the present application may further provide a wind turbine generator 6 and a storage battery 7, where the wind turbine generator 6 is connected to the top of the trolley cabin 324, and the storage battery 7 is located in the trolley cabin 324 and electrically connected to the wind turbine generator 6. The wind power generation subassembly that this application embodiment provided can be by fixed mounting on coaster storehouse 324, adopts wind power generation's mode to charge for battery 7, and power consumption parts such as water purification subassembly 23, coaster 32 and water pump 21 can be connected with battery 7 electricity, when needs power consumption, can acquire the electric energy through battery 7 for the system energy-concerving and environment-protective more that this application embodiment provides.

In another implementation manner, as shown in fig. 6, a photoelectric conversion and storage assembly 8 may also be provided in the embodiment of the present application, where the daylighting roof glass 4 includes photovoltaic glass, and the photoelectric conversion and storage assembly 8 is electrically connected to the photovoltaic glass. The daylighting top glass 4 that this application embodiment provided can adopt the photovoltaic glass of high luminousness to make, and this photovoltaic glass of high luminousness can not influence the normal daylighting of daylighting top glass 4, and cooperation photoelectric conversion and electric power storage component 8 can produce the electric energy and store simultaneously. The water quality purification assembly 23, the pulley 32, the water pump 21 and other electricity utilization components can be electrically connected with the photoelectric conversion and electricity storage assembly 8, and when electricity is needed, electric energy can be obtained through the photoelectric conversion and electricity storage assembly 8, so that the system provided by the embodiment of the application is more energy-saving and environment-friendly.

In a word, the self-cleaning system is retrieved to daylighting top rainwater that this application provided, simple structure is reasonable, installation convenient to use. The rainwater collecting unit can collect rainwater to be used as glass cleaning water, so that the purpose of saving water is achieved. The water flow guide unit and the sliding cleaning unit can be used in a matched mode to clean the daylighting roof glass. Personnel are not needed in the whole process, and the automatic cleaning of the daylighting roof glass can be realized. The system has the advantages of high safety, water and energy conservation, good cleaning effect and the like, and is worthy of large-area popularization and use.

In addition, under the preferred embodiment, the system can also adopt wind power generation or solar power generation to realize the self-sufficiency of power supply, thereby further achieving the purposes of energy conservation and environmental protection.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising a," "8230," "8230," or "comprising" does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (10)

1. A daylighting roof rainwater recovery self-cleaning system, the system comprising:

the rainwater collecting unit comprises a water collector, and the inlet end of the water collector is opposite to the lowest position of the daylighting roof glass, so that water flow on the daylighting roof glass enters the water collector;

one end of the water flow guiding unit is connected with the bottom of the water collector, and the other end of the water flow guiding unit extends to the highest position of the daylighting roof glass;

the sliding cleaning unit comprises a plurality of sliding rails and a plurality of pulleys which are correspondingly connected with the sliding rails one by one; the pulley is connected with a cleaning brush, and at least one part of bristles of the cleaning brush is in contact with the daylighting roof glass; the sliding rail is arranged on the steel beam of the daylighting roof, and the axial direction of the sliding rail extends along the inclined direction of the daylighting roof glass; and the plurality of pulleys move along the plurality of slide rails so that the cleaning brush reciprocates along the inclined direction of the daylighting roof glass.

2. The daylighting top rainwater recovery self-cleaning system of claim 1, wherein the inlet end of the water collector is provided with a filter screen assembly, and the filter screen assembly comprises a coarse filter screen and a fine filter screen arranged up and down.

3. The daylighting roof rainwater recycling self-cleaning system according to claim 1, wherein the water flow guiding unit comprises a water pump and a water pipe, an inlet end of the water pump is connected with the bottom of the water collector, one end of the water pipe is connected with an outlet end of the water pump, and the other end of the water pipe extends to the highest position of the daylighting roof glass.

4. The daylighting top rainwater recovery self-cleaning system according to claim 3, wherein a water purification assembly is arranged between the inlet end of the water pump and the bottom of the water collector, and the inlet end of the water pump is connected with a cleaning agent adder.

5. The daylighting roof rainwater recovery self-cleaning system of claim 1, wherein the slide rail comprises a rail base and a rail upper cover which are detachably connected, the bottom of the rail base is connected with the daylighting roof steel beam, and the rail upper cover is connected with the upper part of the rail base; the pulley is positioned between the track base and the track upper cover.

6. The daylighting roof rainwater recovery self-cleaning system according to claim 5, wherein the pulley comprises a wheel carrier, two rotating wheels are coaxially arranged on the wheel carrier, wheel grooves are formed in the outer sides of the rotating wheels, protrusions extending in the respective axial directions are respectively arranged on the slide rail base and the slide rail upper cover, and the respective wheel grooves of the two rotating wheels are respectively in one-to-one correspondence to the respective protrusions of the slide rail base and the slide rail upper cover and are in fit connection with the respective protrusions.

7. The daylighting roof rainwater recovery self-cleaning system of claim 6, wherein the wheel frame further comprises a cleaning brush connection portion located at a side of the wheel frame for connection with the cleaning brush.

8. The daylighting roof rainwater recovery self-cleaning system of claim 1, further comprising a trolley bin, wherein one end of the trolley bin is located at the highest position of the daylighting roof glass, and the slide rail extends into the trolley bin so that the trolley can enter and exit the trolley bin.

9. The daylighting roof rainwater recovery self-cleaning system of claim 8, further comprising a wind turbine generator system and a storage battery, wherein the wind turbine generator system is connected with the top of the trolley storehouse, and the storage battery is located in the trolley storehouse and is electrically connected with the wind turbine generator system.

10. The daylighting roof rainwater recovery self-cleaning system of claim 8, further comprising a photoelectric conversion and storage assembly, wherein the daylighting roof glass comprises photovoltaic glass, and the photoelectric conversion and storage assembly is electrically connected with the photovoltaic glass.

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