CN109191708B

CN109191708B - Intelligent environment purification system based on mobile payment

Info

Publication number: CN109191708B
Application number: CN201810943234.8A
Authority: CN
Inventors: 徐建红
Original assignee: Hanguda Hangzhou Network Information Technology Co ltd
Current assignee: Hanguda (Hangzhou) Network Information Technology Co.,Ltd.
Priority date: 2018-08-17
Filing date: 2018-08-17
Publication date: 2021-01-29
Anticipated expiration: 2038-08-17
Also published as: CN109191708A

Abstract

The utility model provides an intelligence environmental purification system based on remove payment, including the multi-storey building, unmanned aerial vehicle device, splicing apparatus, purifier, conflict device, online payment system, recognition device, wireless device and control center, the multi-storey building is provided with concatenation window, the glass passageway, driving motor, glass frame and protective glass, the unmanned aerial vehicle device includes the unmanned aerial vehicle warehouse, purify unmanned aerial vehicle, coupling mechanism, ventilative passageway, ventilative closed electrical machines, ventilative closed plate and separation net, splicing apparatus includes first concatenation passageway, first concatenation motor, first concatenation board and first concatenation recess, purifier includes planting passageway, planting hydraulic pump, planting hydraulic stem, planting platform and planting groove, conflict device includes flexible passageway, flexible motor, flexible pillar, flexible base, support channel, support motor and support baffle, recognition device includes first camera, the first camera is installed to the first camera, the second camera is installed to the second camera, the first camera is installed to the first camera, the second camera is installed to, The wireless device is arranged in the control center, and the control center is arranged in the multi-story building.

Description

Intelligent environment purification system based on mobile payment

Technical Field

The invention relates to the field of intelligent housing, in particular to an intelligent environment purification system based on mobile payment.

Background

An unmanned aircraft, abbreviated as "drone", and abbreviated as "UAV", is an unmanned aircraft that is operated by a radio remote control device and a self-contained program control device, or is operated autonomously, either completely or intermittently, by a computer. Unmanned aerial vehicles can be classified into military and civil applications according to the application field. For military use, unmanned aerial vehicles divide into reconnaissance aircraft and target drone. In the civil aspect, the unmanned aerial vehicle + the industry application is really just needed by the unmanned aerial vehicle; at present, the unmanned aerial vehicle is applied to the fields of aerial photography, agriculture, plant protection, miniature self-timer, express transportation, disaster relief, wild animal observation, infectious disease monitoring, surveying and mapping, news reporting, power inspection, disaster relief, film and television shooting, romantic manufacturing and the like, the application of the unmanned aerial vehicle is greatly expanded, and developed countries actively expand industrial application and develop unmanned aerial vehicle technology.

Mobile payment, also known as mobile payment, is a service that allows users to use their mobile terminals (typically mobile phones) for financial payments of goods or services consumed. The unit or the individual directly or indirectly sends a payment instruction to the bank financial institution through the mobile equipment, the Internet or the close-range sensor to generate money payment and fund transfer behaviors, so that the mobile payment function is realized. The mobile payment integrates terminal equipment, the Internet, an application provider and a financial institution, and provides financial services such as currency payment and payment for a user.

However, how to combine together mobile payment and multi-storey building and unmanned aerial vehicle, plant the plant and utilize mobile terminal to carry out the expense payment that corresponds in window position at the resident family demand that acquires multi-storey building after, the unmanned aerial vehicle of control resident family demand quantity flies to go to the house window position that this resident family belongs to and advances the concatenation to form the ventilative burglary-resisting window that has protection and theftproof function and stretch out planting platform and plant the plant for the resident family, with the indoor air purification problem that needs to solve at present urgently.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects in the background art, the embodiment of the invention provides an intelligent environment purification system based on mobile payment, which can effectively solve the problems related to the background art.

The technical scheme is as follows:

an intelligent environment purification system based on mobile payment comprises a multi-storey building, an unmanned aerial vehicle device, a splicing device, a purification device, a conflict device, an online payment system, a recognition device, a wireless device and a control center,

the multi-storey building is provided with a spliced window, a glass channel, a driving motor, a glass frame and protective glass, wherein the spliced window is provided with a plurality of spliced windows, is arranged at the side position of the multi-storey building house and is used for providing illumination and providing splicing of the unmanned aerial vehicle; the number of the glass channels is consistent with that of the spliced windows, and the glass channels are arranged in the inner wall of the spliced windows and used for providing the extension of the glass frame; the number of the driving motors is consistent with that of the glass channels, the driving motors are arranged in the glass channels, and the driving motors are respectively connected with the glass channels and the glass frames and used for driving the connected glass frames to stretch and retract; the number of the glass frames is consistent with that of the driving motors, the glass frames are arranged at the inner positions of the glass channels, and the glass frames are respectively connected with the driving motors and the glass channels and used for stretching at the positions of the glass channels; the number of the protective glass is consistent with that of the glass frames and the protective glass is arranged on the inner wall of the glass frames;

the unmanned aerial vehicle device comprises an unmanned aerial vehicle warehouse, a purifying unmanned aerial vehicle, a connecting mechanism, a ventilation channel, a ventilation closed motor, a ventilation closed plate and an isolation net, wherein the unmanned aerial vehicle warehouse is provided with a plurality of unmanned aerial vehicle storehouses, is arranged at the top of a multi-story building and is used for storing and purifying the unmanned aerial vehicle; the purifying unmanned aerial vehicles are provided with a plurality of purifying unmanned aerial vehicles, are arranged in the unmanned aerial vehicle warehouse, are connected with the connecting mechanism and are used for providing purified air for plants planted by residents of the multi-storey building; the number of the connecting mechanisms is consistent with that of the purification unmanned aerial vehicles, the connecting mechanisms are arranged at the top end of the interior of the unmanned aerial vehicle warehouse and connected with the unmanned aerial vehicle warehouse for being fixedly connected with the purification unmanned aerial vehicles; the plurality of air-permeable channels are arranged in the inner position of the unmanned purification machine, penetrate through the unmanned purification machine and are used for providing air circulation; the ventilation closed motors are provided with a plurality of ventilation closed motors, are arranged at the inner positions of the purification unmanned aerial vehicle on the sides of the ventilation channel, are respectively connected with the purification unmanned aerial vehicle and the ventilation closed plates, and are used for driving the connected ventilation closed plates to stretch; the number of the ventilation sealing plates is consistent with that of the ventilation sealing motors, the ventilation sealing plates are arranged at the inner position of the purification unmanned aerial vehicle on the side of the ventilation channel, and the ventilation sealing plates are respectively connected with the purification unmanned aerial vehicle, the ventilation channel and the ventilation sealing motors and used for opening and closing the ventilation channel connected with the purification unmanned aerial vehicle; the isolation nets are arranged on the inner wall of the ventilation channel and used for preventing winged insects from entering the interior of the multi-storey building house;

the splicing device comprises a first splicing channel, a first splicing motor, a first splicing plate and a first splicing groove, wherein the first splicing channel is provided with a plurality of splicing plates, is arranged at the inner position of the side of the unmanned aerial vehicle and is used for providing the first splicing plate to stretch; the number of the first splicing motors is consistent with that of the first splicing channels, the first splicing motors are arranged in the first splicing channels, and the first splicing motors are respectively connected with the first splicing channels and the first splicing plates and used for driving the connected first splicing plates to stretch; the number of the first splicing plates is consistent with that of the first splicing motors, the first splicing plates are arranged in the inner position of the first splicing channel, are connected with the first splicing motors, and are used for being in contact connection with the first splicing grooves after being extended out; the first splicing grooves are provided with a plurality of first splicing grooves, are arranged at the inner positions of the inner walls of the spliced windows and are used for being in abutting connection with the first splicing plates;

the purification device comprises planting channels, a planting hydraulic pump, a planting hydraulic rod, a planting platform and planting grooves, wherein the number of the planting channels is consistent with that of the purification unmanned aerial vehicles, the planting channels are arranged at the inner positions above the purification unmanned aerial vehicles and are connected with the purification unmanned aerial vehicles for providing the expansion of the planting platform; the number of the planting hydraulic pumps is consistent with that of the planting channels, the planting hydraulic pumps are arranged in the planting channels, and the planting hydraulic pumps are respectively connected with the planting channels and the planting hydraulic rods and used for driving the connected planting hydraulic rods to stretch and contract; the planting hydraulic rods are consistent in number with the planting hydraulic pumps, are arranged in the planting channel, are respectively connected with the planting hydraulic pumps and the planting platform, and are used for driving the connected planting platform to stretch; the planting platforms are the same in number as the planting hydraulic rods, are arranged at the front ends of the planting hydraulic rods, are respectively connected with the planting hydraulic rods and the planting grooves and are used for extending out the connected planting grooves; the planting grooves are arranged at a plurality of positions in the planting platform, are connected with the planting platform and are used for providing plants for households in the multi-storey building;

the collision device comprises a telescopic channel, a telescopic motor, a telescopic pillar, a telescopic base, a support channel, a support motor and a support baffle, wherein the telescopic channel is provided with a plurality of telescopic pillars and is arranged at the inner position of the side of the unmanned aerial vehicle for providing telescopic effect of the telescopic base; the number of the telescopic motors is consistent with that of the telescopic channels, the telescopic motors are arranged in the telescopic channels, and the telescopic motors are respectively connected with the telescopic channels and the telescopic pillars and used for driving the connected telescopic pillars to stretch; the number of the telescopic struts is consistent with that of the telescopic motors, the telescopic struts are arranged at the inner positions of the telescopic channel, and the telescopic struts are respectively connected with the telescopic motors and the telescopic bases and used for driving the connected telescopic bases to stretch; the number of the telescopic bases is consistent with that of the telescopic support columns, the telescopic bases are arranged at the front ends of the telescopic support columns, are connected with the telescopic support columns and are used for abutting against the supporting baffle after being extended out; the supporting channels are arranged at a plurality of positions in the multi-story building below the spliced window and used for providing the extension and contraction of the supporting baffle plates; the number of the supporting motors is consistent with that of the supporting channels, the supporting motors are arranged in the supporting channels, and the supporting motors are respectively connected with the supporting channels and the supporting baffles and used for driving the connected supporting baffles to stretch and retract; the number of the supporting baffles is consistent with that of the supporting motors, the supporting baffles are arranged in the supporting channel, are connected with the supporting motors and are used for abutting against the telescopic base after being extended out;

the online payment system is used for providing external equipment of residents of the multi-storey building for mobile payment of environmental purification cost;

the identification device comprises a first camera, a second camera and an aviation obstruction light, wherein the first cameras are provided with a plurality of cameras, are arranged at the lateral surface positions of the unmanned aerial vehicle, are connected with the unmanned aerial vehicle and are used for shooting the connected environment images around the unmanned aerial vehicle; the second cameras are arranged at the surface positions of the multi-layer building above the spliced window and are used for shooting side environment images of the multi-layer building; the aviation obstruction lamps are arranged at the lateral surface positions of the unmanned purification machine and connected with the unmanned purification machine, and are used for displaying the outline of the unmanned purification machine after being spliced with the spliced balcony;

the wireless device is arranged in the control center and is used for being respectively connected with the driving motor, the purifying unmanned aerial vehicle, the connecting mechanism, the breathable closed motor, the first splicing motor, the clear water spray head, the telescopic motor, the supporting motor, the online payment system, the first camera, the second camera, the aviation obstruction light, the control center, external equipment of a multi-storey building house resident, external equipment of a multi-storey building management department, the emergency center, the fire-fighting center, the alarm center and a network;

the control center is arranged in the inner position of the multi-storey building and used for intelligently planting and purifying air.

As a preferred mode of the invention, the multi-story building is further provided with a shielding channel, a shielding motor and a telescopic shielding plate, wherein the shielding channel is provided with a plurality of shielding channels, is arranged at the inner position of the multi-story building above the spliced window and is used for providing the telescopic shielding plate to stretch; the shielding motors are consistent in number with the shielding channels, are arranged in the shielding channels, are respectively connected with the shielding channels, the wireless device and the telescopic shielding plates, and are used for driving the telescopic shielding plates connected with the shielding channels to stretch; the flexible shielding plate quantity with shelter from motor quantity unanimity and set up in sheltering from passageway internal position, and be connected with the motor that shelters from, stretch out the back for shelter from the rainwater.

As a preferred mode of the invention, the device further comprises a fixing device, wherein the fixing device comprises a fixing bottom groove, a fixing motor and a telescopic fixing plate, and the fixing bottom groove is provided with a plurality of fixing bottom grooves, is arranged at the upper surface position of the supporting baffle and is used for abutting against and fixing with the telescopic base; the fixed motors are arranged at a plurality of positions in the telescopic base, are respectively connected with the telescopic base, the wireless device and the telescopic fixed plate, and are used for driving the connected telescopic fixed plate to stretch; the number of the telescopic fixing plates is consistent with that of the fixed motors, the telescopic fixing plates are arranged in the inner positions of the telescopic bases, connected with the fixed motors and used for fixing the telescopic bases after being stretched out.

As a preferable mode of the present invention, the fixing device further includes a plurality of fixing grooves, and the fixing grooves are disposed at lateral positions of the fixing bottom groove, and are respectively connected to the fixing base and the supporting baffle, and are used for abutting against and fixing the telescopic fixing plate.

As a preferred mode of the invention, the splicing device further comprises a second splicing channel, a second splicing motor and a second splicing plate, wherein the second splicing channel is provided with a plurality of splicing channels, is arranged at the inner position of the front end of the first splicing plate and is used for providing the second splicing plate to stretch; the number of the second splicing motors is consistent with that of the second splicing channels, the second splicing motors are arranged in the second splicing channels, and the second splicing motors are respectively connected with the second splicing channels, the wireless devices and the second splicing plates and used for driving the connected second splicing plates to stretch; the number of the second splicing plates is consistent with that of the second splicing motors, the second splicing plates are arranged in the inner position of the second splicing channel, are connected with the second splicing motors, and are used for fixing the first splicing plates after extending out.

As a preferred mode of the invention, the splicing device further comprises a plurality of second splicing grooves, the second splicing grooves are arranged at the lateral positions of the first splicing grooves and are vertically connected with the first splicing grooves and used for abutting against and fixing with the second splicing plates.

As a preferred mode of the invention, the splicing device further comprises splicing closed motors and splicing closed plates, wherein the number of the splicing closed motors is consistent with that of the first splicing grooves, the splicing closed motors are arranged at the inner positions of the splicing windows at the sides of the first splicing grooves, and the splicing closed motors are respectively connected with the splicing windows, the wireless devices and the splicing closed plates and are used for driving the connected splicing closed plates to stretch and retract; the splicing sealing plate number is consistent with the splicing sealing motor number, is arranged in the inner position of the splicing window on the side of the first splicing groove, is respectively connected with the splicing window, the first splicing groove and the splicing sealing motor, and is used for the first splicing groove connected with the switch.

As a preferred mode of the invention, the planting device further comprises a clear water storage bin, a clear water spray head and a clear water guide pipe, wherein the number of the planting grooves is consistent with that of the purifying unmanned aerial vehicles, the planting grooves are arranged at the inner positions above the purifying unmanned aerial vehicles and connected with the purifying unmanned aerial vehicles, and the planting grooves are used for providing plants for residents in a multi-storey building; the number of the clear water storage bins is consistent with that of the purification unmanned aerial vehicles, and the clear water storage bins are arranged in the purification unmanned aerial vehicles and used for storing clear water; the clear water spray heads are arranged at the inner positions above the purifying unmanned aerial vehicle, are respectively connected with the purifying unmanned aerial vehicle and the clear water guide pipe, and are used for spraying clear water in the connected clear water storage bin to the planting grooves through the clear water guide pipe; clear water pipe quantity is unanimous with clear water shower nozzle quantity and sets up in purifying unmanned aerial vehicle inside position, and is connected with clear water storage storehouse and clear water shower nozzle respectively for the leading-in clear water shower nozzle inside position of connecting of clear water storage storehouse inside clear water of connecting.

As a preferable mode of the invention, the planting device further comprises a clear water channel, wherein the clear water channel is provided with a plurality of clear water channels, is arranged at the internal position of the unmanned aerial vehicle, is connected with the clear water storage bin, and is used for guiding clear water to enter the clear water storage bin.

As a preferred mode of the invention, the collision device further comprises sealing motors, sealing collision ports and sealing collision grooves, wherein the number of the sealing motors and the number of the purifying unmanned aerial vehicles are arranged in the inner positions of the purifying unmanned aerial vehicles, and the sealing collision ports are respectively connected with the purifying unmanned aerial vehicles, the wireless devices and the sealing collision ports and used for driving the connecting sealing collision ports to stretch and retract; the number of the sealing abutting openings is consistent with that of the sealing motors, the sealing abutting openings are arranged at the side positions of the clear water channel, and the sealing abutting openings are respectively connected with the clear water channel and the purification unmanned aerial vehicle and used for abutting and sealing with the sealing abutting grooves; sealed conflict groove is provided with a plurality of and sets up in concatenation window inner wall surface position, and is connected and is provided with the ooff valve with the water supply system of concatenation window and multi-storey building respectively for sealed fixed and sealed conflict mouthful inside sealed fixed the conflict mouthful of leading-in sealed fixed clear water of the water supply system inside with sealed conflict mouthful.

The invention realizes the following beneficial effects:

1. after the intelligent environment purification system is started, if plants which are required to be planted by residents of a multi-storey building and purify air are obtained, corresponding cost is collected according to the number of the purification unmanned aerial vehicles required by the residents, the purification unmanned aerial vehicles in corresponding number are controlled to move to the position of a spliced window of a house of the storey where the residents are located, the purification unmanned aerial vehicles are spliced with the spliced window, and then a planting platform is controlled to stretch out a planting groove for the residents to plant the plants; when purifying unmanned aerial vehicle entering operating condition, open the aviation obstruction beacon night and show for the multi-storey building profile, the flexible shielding plate of rainy day control stretches out and hides rain.

2. After purifying unmanned aerial vehicle and concatenation window concatenation and accomplishing, control should purify the concatenation window of unmanned aerial vehicle and concatenation to fix, consolidate with the holding back for telescopic base simultaneously, prevent to purify unmanned aerial vehicle and drop.

3. After purifying unmanned aerial vehicle and concatenation window concatenation and accomplishing, the sealed conflict mouth of this purification unmanned aerial vehicle of control is connected with the sealed conflict recess of concatenation window position is sealed contradicted, then opens the inside switch valve of sealed conflict recess and open.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 is a side schematic view of a multi-storey building according to one example of the present invention;

fig. 2 is a schematic side view, partly in section, of a drone warehouse according to one example of the invention;

FIG. 3 is a side partial schematic view of an area in which a spliced window according to one example of the present invention is located;

fig. 4 is a side partial schematic view of a decontaminating drone provided by one example of the present invention;

fig. 5 is a bottom schematic view of a purifying drone provided by one example of the present invention;

FIG. 6 is a schematic partial cross-sectional view of an area where air-permeable channels are provided according to one example of the present invention;

fig. 7 is a schematic partial cross-sectional view of an area below the unmanned aerial vehicle for purification where the unmanned aerial vehicle collides with and is fixed to the spliced window according to an example of the present invention;

fig. 8 is a schematic partial cross-sectional view of an area where the telescopic base and the supporting baffle are fixed in an abutting manner according to an example of the present invention;

FIG. 9 is a schematic view, partially in section, of an area where a seal interference port interferes with a seal interference groove to seal, according to one embodiment of the present invention;

fig. 10 is a connection diagram of an intelligent environmental decontamination system according to an exemplary embodiment of the present invention.

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.

Unless otherwise defined, the relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present invention. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate. All technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" is not to be interpreted as implying any or all combinations of one or more of the associated listed items.

Spatially relative terms, such as "disposed above … …," "disposed above … …," "disposed above … …, above," and the like, may be used herein for ease of description to describe the spatial relationship of one device or feature to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "disposed above … …" can include both an orientation of "disposed above … …" and "disposed below … …". The device may be otherwise variously positioned and the spatially relative descriptors used herein interpreted accordingly.

Example one

Referring to fig. 1-6, shown in fig. 10.

Specifically, the embodiment provides an intelligent environment purification system based on mobile payment, which comprises a multi-story building 1, an unmanned aerial vehicle device 2, a splicing device 3, a purification device 4, a collision device 5, a recognition device 6, an online payment system 7, a wireless device 8 and a control center 9,

the multi-storey building 1 is provided with a spliced window 11, a glass channel 12, a driving motor 13, a glass frame 14 and protective glass 15, wherein the spliced window 11 is provided with a plurality of windows and is arranged at the side position of a house of the multi-storey building 1 for providing illumination and providing splicing of a purifying unmanned aerial vehicle 21; the number of the glass channels 12 is the same as that of the spliced windows 11, and the glass channels are arranged at the inner positions of the inner walls of the spliced windows 11 and used for providing the extension and contraction of the glass frames 14; the number of the driving motors 13 is the same as that of the glass channels 12, the driving motors are arranged in the glass channels 12, and the driving motors are respectively connected with the glass channels 12 and the glass frames 14 and used for driving the connected glass frames 14 to stretch and contract; the number of the glass frames 14 is the same as that of the driving motors 13, the glass frames are arranged at the inner positions of the glass channel 12, and the glass frames are respectively connected with the driving motors 13 and the glass channel 12 and used for stretching and contracting at the positions of the glass channel 12; the number of the protective glass 15 is the same as that of the glass frames 14 and the protective glass is arranged on the inner wall of the glass frames 14;

the unmanned aerial vehicle device 2 comprises an unmanned aerial vehicle warehouse 20, a purifying unmanned aerial vehicle 21, a connecting mechanism 22, a ventilation channel 23, a ventilation closed motor 24, a ventilation closed plate 25 and an isolation net 26, wherein the unmanned aerial vehicle warehouse 20 is provided with a plurality of unmanned aerial vehicle warehouses, is arranged at the top of the multi-story building 1 and is used for storing and purifying the purifying unmanned aerial vehicle 21; the purifying unmanned aerial vehicles 21 are arranged in a plurality of positions in the unmanned aerial vehicle warehouse 20, are connected with the connecting mechanism 22 and are used for providing purified air for planting plants for residents of the multi-storey building 1; the number of the connecting mechanisms 22 is the same as that of the purification unmanned aerial vehicles 21, the connecting mechanisms are arranged at the top end inside the unmanned aerial vehicle warehouse 20, and the connecting mechanisms are connected with the unmanned aerial vehicle warehouse 20 and are used for being fixedly connected with the purification unmanned aerial vehicles 21; the plurality of air-permeable channels 23 are arranged in the purifying unmanned aerial vehicle 21, penetrate through the purifying unmanned aerial vehicle 21 and are used for providing air circulation; the ventilation closed motors 24 are provided with a plurality of ventilation closed motors, are arranged at the inner positions of the purification unmanned aerial vehicle 21 on the side of the ventilation channel 23, are respectively connected with the purification unmanned aerial vehicle 21 and the ventilation closed plates 25, and are used for driving the connected ventilation closed plates 25 to stretch; the number of the ventilation closing plates 25 is the same as that of the ventilation closing motors 24, the ventilation closing plates are arranged at the inner position of the purification unmanned aerial vehicle 21 on the side of the ventilation channel 23, and the ventilation closing plates are respectively connected with the purification unmanned aerial vehicle 21, the ventilation channel 23 and the ventilation closing motors 24 and used for opening and closing the ventilation channel 23 connected with the purification unmanned aerial vehicle 21; the isolation nets 26 are arranged on the inner wall of the air-permeable passage 23 and used for preventing flying insects from entering the interior of the house of the multi-storey building 1;

the splicing device 3 comprises a first splicing channel 30, a first splicing motor 31, a first splicing plate 32 and a first splicing groove 33, wherein the first splicing channel 30 is provided with a plurality of splicing plates, is arranged at the inner position of the side of the unmanned aerial vehicle 21 and is used for providing the first splicing plate 32 to stretch; the number of the first splicing motors 31 is the same as that of the first splicing channels 30, the first splicing motors are arranged in the first splicing channels 30, and the first splicing motors are respectively connected with the first splicing channels 30 and the first splicing plates 32 and used for driving the connected first splicing plates 32 to stretch and retract; the number of the first splicing plates 32 is the same as that of the first splicing motors 31, the first splicing plates are arranged in the first splicing channel 30, are connected with the first splicing motors 31 and are used for abutting against and connecting with the first splicing grooves 33 after being extended out; the first splicing grooves 33 are arranged in a plurality and are arranged at the inner positions of the inner wall of the spliced window 11 and are used for being in abutting connection with the first splicing plates 32;

the purification device 4 comprises planting channels 40, planting hydraulic pumps 41, planting hydraulic rods 42, planting platforms 43 and planting grooves 44, wherein the number of the planting channels 40 is the same as that of the purification unmanned aerial vehicles 21, the planting channels are arranged at the inner positions above the purification unmanned aerial vehicles 21, and the planting channels are connected with the purification unmanned aerial vehicles 21 and used for providing the extension and contraction of the planting platforms 43; the number of the planting hydraulic pumps 41 is the same as that of the planting channels 40, the planting hydraulic pumps are arranged in the planting channels 40, and the planting hydraulic pumps are respectively connected with the planting channels 40 and the planting hydraulic rods 42 and used for driving the connected planting hydraulic rods 42 to stretch and retract; the planting hydraulic rods 42 are consistent with the planting hydraulic pumps 41 in number, are arranged in the planting channel 40, are respectively connected with the planting hydraulic pumps 41 and the planting platform 43, and are used for driving the connected planting platform 43 to stretch; the planting platforms 43 are in the same number as the planting hydraulic rods 42, are arranged at the front ends of the planting hydraulic rods 42, are respectively connected with the planting hydraulic rods 42 and the planting grooves 44, and are used for extending out the connected planting grooves 44; the planting grooves 44 are arranged in a plurality of positions in the planting platform 43, are connected with the planting platform 43 and are used for providing plants for households in the house of the multi-story building 1;

the collision device 5 comprises a telescopic channel 50, a telescopic motor 51, a telescopic support column 52, a telescopic base 53, a support channel 54, a support motor 55 and a support baffle 56, wherein the telescopic channel 50 is provided with a plurality of parts and is arranged at the inner position of the side of the unmanned aerial vehicle 21 for providing the telescopic base 53 to stretch; the number of the telescopic motors 51 is the same as that of the telescopic channels 50, the telescopic motors are arranged in the telescopic channels 50, and the telescopic motors are respectively connected with the telescopic channels 50 and the telescopic struts 52 and used for driving the connected telescopic struts 52 to stretch and contract; the number of the telescopic struts 52 is the same as that of the telescopic motors 51, the telescopic struts are arranged in the telescopic channel 50, and the telescopic struts are respectively connected with the telescopic motors 51 and the telescopic bases 53 and used for driving the connected telescopic bases 53 to stretch; the number of the telescopic bases 53 is the same as that of the telescopic support columns 52, the telescopic bases are arranged at the front ends of the telescopic support columns 52 and connected with the telescopic support columns 52, and the telescopic bases are used for abutting against the supporting baffle plates 56 after being extended out; the supporting channels 54 are provided with a plurality of supporting channels and are arranged at the inner positions of the multi-story building 1 below the spliced window 11 for providing the extension and contraction of the supporting baffles 56; the number of the supporting motors 55 is the same as that of the supporting channels 54, the supporting motors are arranged in the supporting channels 54, and the supporting motors are respectively connected with the supporting channels 54 and the supporting baffles 56 and used for driving the connected supporting baffles 56 to stretch and contract; the number of the supporting baffles 56 is the same as that of the supporting motors 55, the supporting baffles are arranged at the inner positions of the supporting channels 54, are connected with the supporting motors 55 and are used for abutting against the telescopic base 53 after being extended out;

the identification device 6 comprises a first camera 60, a second camera 61 and an aviation obstruction light 62, wherein the first cameras 60 are provided with a plurality of cameras and arranged at the lateral surface positions of the unmanned aerial vehicle 21, are connected with the unmanned aerial vehicle 21 and are used for shooting the environment image around the connected unmanned aerial vehicle 21; the second cameras 61 are arranged at a plurality of positions on the surface of the multi-story building 1 above the spliced window 11 and are used for shooting the side environment image of the multi-story building 1; the aviation obstruction lamps 62 are arranged at the lateral surface positions of the unmanned purification vehicle 21, are connected with the unmanned purification vehicle 21 and are used for displaying the spliced outline of the unmanned purification vehicle 21 and the spliced balcony;

the online payment system 7 is used for providing external equipment of residents of the multi-storey building 1 for mobile payment of environmental purification cost;

the wireless device 8 is arranged in the control center 9 and is used for being connected with a driving motor 13, a purifying unmanned aerial vehicle 21, a connecting mechanism 22, a breathable closed motor 24, a first splicing motor 31, a clean water spray head 46, a telescopic motor 51, a supporting motor 55, an online payment system 7, a first camera 60, a second camera 61, an aviation obstruction light 62, the control center 9, external equipment of a house resident of the multi-storey building 1, external equipment of a management department of the multi-storey building 1, an emergency center, a fire-fighting center, an alarm center and a network;

the control center 9 is arranged in the inner position of the multi-storey building 1 and used for intelligently planting and purifying air.

As a preferred mode of the invention, the multi-story building 1 is further provided with a shielding passage 16, a shielding motor 17 and a telescopic shielding plate 18, wherein the shielding passage 16 is provided with a plurality of shielding plates and is arranged at the inner position of the multi-story building 1 above the spliced window 11 for providing the telescopic shielding plate 18 to stretch; the shielding motors 17 are consistent in number with the shielding channels 16, are arranged in the shielding channels 16, are respectively connected with the shielding channels 16, the wireless device 8 and the telescopic shielding plates 18, and are used for driving the telescopic shielding plates 18 to stretch; the number of the telescopic shielding plates 18 is the same as that of the shielding motors 17, the telescopic shielding plates are arranged in the shielding channel 16, are connected with the shielding motors 17 and are used for shielding rainwater after extending out.

The control center 9 sends or receives information and/or instructions and/or requests to the driving motor 13, the purifying unmanned aerial vehicle 21, the connecting mechanism 22, the ventilation closed motor 24, the first splicing motor 31, the planting hydraulic pump 41, the telescopic motor 51, the supporting motor 55, the online payment system 7, the first camera 60, the second camera 61, the aviation obstruction light 62, the external equipment of the house residents of the multi-story building 1, the external equipment of the management department of the multi-story building 1, the emergency center, the fire center, the alarm center, the network, the shielding motor 17, the fixed motor 101, the second splicing motor 35, the splicing closed motor 38, the clear water spray head 46 and the sealing motor 57, and all executes the sending or receiving of the information and/or instructions and/or requests through the wireless device 8; the control center 9 controls the electronic devices means that the control center 9 sends corresponding control instructions to the electronic devices to be controlled, and the control center 9 returns corresponding instruction completion information to the control center 9 after the control instructions are executed, wherein the control instructions are driven by the driving motor 13, the unmanned aerial vehicle 21, the connecting mechanism 22, the ventilation closed motor 24, the first splicing motor 31, the planting hydraulic pump 41, the telescopic motor 51, the supporting motor 55, the online payment system 7, the first camera 60, the second camera 61, the aviation obstruction light 62, the shielding motor 17, the fixed motor 101, the second splicing motor 35, the splicing closed motor 38, the clear water nozzle 46 and the sealing motor 57; a storage battery is arranged in the purifying unmanned aerial vehicle 21 and supplies power to the purifying unmanned aerial vehicle 21, the breathable closed motor 24, the first splicing motor 31, the planting hydraulic pump 41, the telescopic motor 51, the first camera 60, the aviation obstruction light 62, the fixed motor 101, the second splicing motor 35, the clear water nozzle 46 and the sealing motor 57; the supporting motor 55, the second camera 61, the shielding motor 17 and the splicing sealing motor 38 are all connected with a power supply center arranged inside the unmanned aerial vehicle warehouse 20; electronic devices of the intelligent environment purification system are all designed to be waterproof; the unmanned aerial vehicle warehouse 20 and the purifying unmanned aerial vehicle 21 are bound with each other; after each start of the unmanned aerial vehicle 21, the unmanned aerial vehicle self-checks the electric quantity contained in the storage battery of the unmanned aerial vehicle, and if the electric quantity is less than 30% of the total electric quantity, sends unmanned aerial vehicle replacement information to the control center 9 and goes to a power supply center in the bound unmanned aerial vehicle warehouse 20 to supplement the electric power so as to inform the control center 9 to replace and control other unmanned aerial vehicles 21 with sufficient electric quantity; the purifying unmanned aerial vehicle 21 self-checks the electric quantity contained in the storage battery before being turned off every time, and if the electric quantity is less than 30% of the total electric quantity, the purifying unmanned aerial vehicle goes to a power supply center inside the bound unmanned aerial vehicle warehouse 20 to supplement the electric power; the size of the unmanned purification machine 21 is consistent with that of a window of a house of the multi-storey building 1, namely, one window protected by the multi-storey building 1 accommodates one unmanned purification machine 21; coupling mechanism 22 below is electromagnetic adsorption device, purifies unmanned aerial vehicle 21 top and is provided with the iron adsorption piece, purifies unmanned aerial vehicle 21 and passes through the adsorption iron adsorption piece by electromagnetic adsorption device when saving in unmanned aerial vehicle warehouse 20 and will purify unmanned aerial vehicle 21 and suspend in midair.

Specifically, the wireless device 8 receives a start instruction sent by an external device of a management department of the multi-storey building 1 and returns the start instruction to the control center 9, the control center 9 receives payment information received by the online payment system 7 for controlling the wireless device 8 to receive the connection relationship in real time and extracts the quantity information of the unmanned aerial vehicles required, the plant moisture supplement interval time information, the storey building 1 and the house information of the multi-storey building 1, the payment information is received by the online payment system 7, the quantity information of the unmanned aerial vehicles required, the plant moisture supplement interval time information, the storey building 1 and the house information of the multi-storey building 1 are extracted, and after the extraction is completed, the control center 9 controls the unmanned aerial vehicle warehouse 20 to start the idle unmanned aerial vehicle purifying 21 with the quantity identical to the quantity information of the unmanned aerial vehicles required, to enter a working state and controls the first camera 60 of the unmanned aerial vehicle purifying 21 started inside the unmanned aerial vehicle warehouse 20 to shoot a first Environmental image), the control center 9 controls the connection mechanism 22 connected with the activated unmanned aerial vehicle 21 to release the connection relationship and controls the unmanned aerial vehicle 21 to fly to the window position of the multi-story building 1 house in accordance with the extracted floor information of the multi-story building 1 and the house information of the multi-story building 1 according to the first image, and at the same time, the control center 9 controls the second camera 61 at the position above the spliced window 11 of the multi-story building 1 house in accordance with the extracted floor information of the multi-story building 1 and the house information of the multi-story building 1 to capture the second image in real time (the second image is the environmental image of the area where the second camera 61 captures) and controls the glass frame 14 driven and connected by the driving motor 13 inside the glass passage 12 at the position of the spliced window 11 of the multi-story building 1 house in accordance with the extracted floor information of the multi-story building 1 and the house information of the multi-story building 1 to drive the protective glass 14 15 is completely retracted to the inner position of the glass channel 12 (after complete retraction, the upper surface of the glass frame 14 and the inner wall surface of the spliced window 11 are kept at the same level), after the unmanned aerial vehicle 21 arrives at the spliced window 11 of the building of the multi-story building 1 and the glass frame 14 is completely retracted, the control center 9 controls the unmanned aerial vehicle 21 arriving at the spliced window 11 of the building of the multi-story building 1 to rotate according to the first image and the second image and to collide with the inner wall of the spliced window 11 of the building of the multi-story building 1 (i.e. the first splice plate 32 of the unmanned aerial vehicle 21 and the first splice groove 33 of the spliced window 11 are kept at the same level) and after the collision is completed, controls the first splice plate 32 in driving connection with the first splice motor 31 inside the first splice channel 30 of the unmanned aerial vehicle 21 colliding with the inner wall of the spliced window 11 to extend out to collide with the bottom surface of the first splice groove, after the first splicing plate 32 is in interference connection with the first splicing groove 33, the control center 9 controls the air permeable closing plate 25 in driving connection with the air permeable closing motor 24 inside the unmanned aerial vehicle 21 where the first splicing plate 32 in interference connection with the first splicing groove 33 is located to be completely contracted to open the connected air permeable passage 23 and controls the planting hydraulic pump 41 in driving connection with the planting hydraulic pump 41 inside the unmanned aerial vehicle 21 where the first splicing plate 32 in interference connection with the first splicing groove 33 is located to completely extend the connected planting platform 43 inside the planting passage 40 to expose the planting groove 44 (for the household to plant the plant for the plant, the planting soil exists inside the planting groove 44), and at the same time, the control center 9 controls the supporting baffle 56 in driving connection with the supporting motor 55 inside the supporting passage 54 below the window 11 where the first splicing groove 33 in interference connection with the first splicing plate 32 is located to completely extend and after the supporting baffle 56 completely extends, controlling a telescopic strut 52 which is connected with a telescopic motor 51 in a telescopic channel 50 of the unmanned purification vehicle 21 and is driven by a telescopic motor 51 in which a first splicing plate 32 which is connected with the first splicing groove 33 in an abutting mode is located to extend a telescopic base 53 at the front end to abut against the upper surface of an extended supporting baffle 56; after purifying unmanned aerial vehicle 21 and being in operating condition, control center 9 utilizes wireless device 8 to obtain current time and weather through the network, if it is in 18 to obtain current time: and 00-06:00, controlling an aviation obstruction light 62 of the purifying unmanned aerial vehicle 21 in the working state to start to display the outline of the multi-story building 1 in real time, and if it is acquired that rainfall occurs at a probability in the current weather, controlling the control center 9 to control the shielding motor 17 inside the shielding channel 16 above the spliced window 11 where the purifying unmanned aerial vehicle 21 in the working state is located to drive the connected telescopic shielding plate 18 to completely extend out so as to shield the purifying unmanned aerial vehicle 21 and the spliced window 11 below from rainwater.

Example two

Referring to fig. 3-4, 7-8, and 10.

The present embodiment is substantially the same as the first embodiment, except that the present embodiment further includes a fixing device 10, the fixing device 10 includes a fixed bottom slot 100, a fixed motor 101, and a telescopic fixing plate 102, the fixed bottom slot 100 is provided with a plurality of slots and is disposed at an upper surface position of the supporting baffle 56, and is used for abutting against and fixing with the telescopic base 53; the fixed motors 101 are arranged at a plurality of positions in the telescopic base 53, are respectively connected with the telescopic base 53, the wireless device 8 and the telescopic fixed plate 102, and are used for driving the connected telescopic fixed plate 102 to stretch; the number of the telescopic fixing plates 102 is the same as that of the fixed motors 101, the telescopic fixing plates are arranged in the inner positions of the telescopic bases 53, are connected with the fixed motors 101, and are used for fixing the telescopic bases 53 after extending out.

As a preferable mode of the present invention, the fixing device 10 further includes a plurality of fixing grooves 103, and the fixing grooves 103 are disposed at lateral positions of the fixing bottom slot 100, and are respectively connected to the fixing base and the supporting baffle 56, and are used for abutting against and fixing the telescopic fixing plate 102.

Specifically, before telescopic prop 52 that telescopic motor 51 drive is connected stretches out telescopic base 53, control center 9 controls telescopic prop 52 that this telescopic motor 51 drive is connected to contradict telescopic base 53 and fixed kerve 100 of the supporting shield 56 that the below stretches out to be connected and is connected and contradict at telescopic base 53 and fixed kerve 100 and be connected the back, the flexible fixed plate 102 that the inside fixed motor 101 drive of telescopic base 53 that control and fixed kerve 100 contradict to be connected is connected stretches out and contradicts fixedly with fixed kerve 100 side's fixed recess 103 to consolidate telescopic base 53 and supporting shield 56.

As a preferred mode of the present invention, the splicing device 3 further includes a second splicing passage 34, a second splicing motor 35, and a second splicing plate 36, wherein the second splicing passage 34 is provided with a plurality of pieces and is disposed at an inner position of the front end of the first splicing plate 32, so as to provide for the second splicing plate 36 to stretch and retract; the number of the second splicing motors 35 is the same as that of the second splicing channels 34, the second splicing motors are arranged in the second splicing channels 34, and the second splicing motors are respectively connected with the second splicing channels 34, the wireless devices 8 and the second splicing plates 36 and used for driving the connected second splicing plates 36 to stretch and retract; the number of the second splicing plates 36 is the same as that of the second splicing motors 35, the second splicing plates are arranged in the inner positions of the second splicing channels 34, are connected with the second splicing motors 35, and are used for fixing the first splicing plates 32 after extending out.

As a preferable mode of the present invention, the splicing device 3 further includes a plurality of second splicing grooves 37, and the second splicing grooves 37 are disposed at lateral positions of the first splicing grooves 33, are vertically connected to the first splicing grooves 33, and are used for abutting against and fixing the second splicing plates 36.

As a preferred mode of the present invention, the splicing device 3 further includes splicing sealing motors 38 and splicing sealing plates 39, the number of the splicing sealing motors 38 is the same as that of the first splicing grooves 33, the splicing sealing motors are arranged at the inner positions of the spliced windows 11 on the sides of the first splicing grooves 33, and the splicing sealing motors are respectively connected with the spliced windows 11, the wireless devices 8 and the splicing sealing plates 39 and used for driving the connected splicing sealing plates 39 to extend and retract; the splicing sealing plates 39 are consistent in number with the splicing sealing motors 38 and are arranged at the inner positions of the splicing windows 11 on the sides of the first splicing grooves 33, and are respectively connected with the splicing windows 11, the first splicing grooves 33 and the splicing sealing motors 38 for opening and closing the first splicing grooves 33 connected.

Specifically, when the driving motor 13 drives the connected glass frame 14 to contract, the control center 9 controls the spliced closing motor 38 inside the spliced window 11 where the contracted glass frame 14 is located to drive the connected spliced closing plate 39 to completely contract to open the connected first spliced groove 33.

Specifically, conflict with first concatenation recess 33 bottom surface at first splice plate 32 and be connected the back, the inside second concatenation motor 35 drive of first splice plate 32 front end that control center 9 control contradicts with first concatenation recess 33 bottom surface is connected second splice plate 36 stretches out and contradicts fixedly with second concatenation recess 37 to it consolidates with concatenation window 11 to purify unmanned aerial vehicle 21.

EXAMPLE III

Referring to fig. 3, 5, and 9-10.

The embodiment is substantially the same as the first embodiment, except that in the embodiment, the purifying device 4 further includes a clean water storage bin 45, clean water spray nozzles 46 and clean water conduits 47, the number of the planting slots 44 is the same as that of the purifying unmanned aerial vehicles 21, the planting slots are arranged at the inner positions above the purifying unmanned aerial vehicles 21, and the planting slots are connected with the purifying unmanned aerial vehicles 21 and used for providing plants for households in the building of the multi-story building 1; the number of the clean water storage bins 45 is consistent with that of the purification unmanned aerial vehicles 21, and the clean water storage bins are arranged in the purification unmanned aerial vehicles 21 and used for storing clean water; the clear water spray nozzles 46 are arranged at a plurality of positions above the purifying unmanned aerial vehicle 21, are respectively connected with the purifying unmanned aerial vehicle 21 and the clear water guide pipe 47, and are used for spraying clear water in the connected clear water storage bin 45 to the planting grooves 44 through the clear water guide pipe 47; clear water pipe 47 quantity and clear water shower nozzle 46 quantity unanimous and set up in purifying unmanned aerial vehicle 21 internal position, and be connected with clear water storage storehouse 45 and clear water shower nozzle 46 respectively for the leading-in clear water shower nozzle 46 internal position of connecting of the inside clear water of clear water storage storehouse 45 who will connect.

As a preferable mode of the present invention, the purification device 4 further includes a clean water channel 48, and the clean water channel 48 is provided with a plurality of channels and disposed at an internal position of the purification unmanned aerial vehicle 21, and is connected to the clean water storage bin 45 for guiding the clean water to enter the clean water storage bin 45.

As a preferred mode of the present invention, the collision device 5 further includes a sealing motor 57, a sealing collision port 58 and a sealing collision groove 59, the number of the sealing motors 57 and the number of the purifying unmanned aerial vehicles 21 are set at the inner position of the purifying unmanned aerial vehicles 21, and the sealing motors 57 are respectively connected to the purifying unmanned aerial vehicles 21, the wireless device 8 and the sealing collision port 58 for driving the connected sealing collision port 58 to extend and retract; the number of the sealing abutting ports 58 is the same as that of the sealing motors 57, the sealing abutting ports are arranged at the lateral side of the clear water channel 48, and the sealing abutting ports are respectively connected with the clear water channel 48 and the purification unmanned aerial vehicle 21 and used for abutting and sealing with the sealing abutting grooves 59; sealed conflict groove is provided with a plurality of and sets up in concatenation window 11 inner wall surface position, and is connected and is provided with the ooff valve with the water supply system of concatenation window 11 and multi-storey building 1 respectively for it is sealed fixed and with sealed conflict mouth 58 inside sealed conflict mouth 58 that sealed fixed is leading-in to the clear water of the inside water supply system of building in hospital.

Concretely, conflict with first concatenation recess 33 at first splice plate 32 and be connected the completion back, the inside sealed motor 57 drive of the purification unmanned aerial vehicle 21 that control center 9 control and first concatenation recess 33 conflict and be connected the first splice plate 32 place of completion is connected sealed conflict mouth 58 and is stretched out and contradict fixedly with the sealed conflict recess 59 of concatenation window 11 (sealed conflict recess 59 contradict fixedly with density conflict mouth, the switch valve of sealed conflict recess 59 inside is opened, in real time with the inside clear water of 1 water supply system of multi-storey building through the leading-in sealed conflict back of sealed conflict recess 59, again by the clear water passageway 48 of leading-in connection behind the sealed conflict, finally by clear water storage storehouse 45 inside of clear water passageway 48 leading-in connection), stretch out and the fixed completion back of sealed conflict recess 59 of concatenation window 11 at sealed conflict mouth 58, control center 9 real time control and the fixed completion of sealed conflict mouth 58 place of sealed conflict recess 59 of accomplishing of window concatenation 11, control center 9 real time control and window concatenation 11 The clear water spray head 46 of the unmanned aerial vehicle 21 and the extracted plant water supplement interval time information are consistent in interval time, the clear water stored in the clear water storage bin 45 is sprayed to the inside of the planting groove 44 of the extended planting platform 43 through the connected clear water guide pipe 47 (for example, if the plant water supplement interval time required by a householder is once a week, the clear water spray head 46 is controlled to spray clear water once every week to supplement water for the plants in the planting groove 44, and if the user requires a plurality of unmanned aerial vehicles 21, the interval time of spraying clear water by the clear water spray head 46 of each unmanned aerial vehicle 21 can be set respectively).

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. An intelligent environment purification system based on mobile payment, which comprises a multi-storey building, an unmanned aerial vehicle device, a splicing device, a purification device, a conflict device, an online payment system, a recognition device, a wireless device and a control center,

the splicing device comprises a first splicing channel, a first splicing motor, a first splicing plate and a first splicing groove, wherein the first splicing channel is provided with a plurality of splicing plates, is arranged at the inner position of the side end of the unmanned aerial vehicle and is used for providing the first splicing plate to stretch; the number of the first splicing motors is consistent with that of the first splicing channels, the first splicing motors are arranged in the first splicing channels, and the first splicing motors are respectively connected with the first splicing channels and the first splicing plates and used for driving the connected first splicing plates to stretch; the number of the first splicing plates is consistent with that of the first splicing motors, the first splicing plates are arranged in the inner position of the first splicing channel, are connected with the first splicing motors, and are used for being in contact connection with the first splicing grooves after being extended out; the first splicing grooves are provided with a plurality of first splicing grooves, are arranged at the inner positions of the inner walls of the spliced windows and are used for being in abutting connection with the first splicing plates;

the purification device comprises planting channels, a planting hydraulic pump, a planting hydraulic rod, a planting platform and planting grooves, wherein the number of the planting channels is consistent with that of the purification unmanned aerial vehicles, the planting channels are arranged in the inner position of the lower end of the purification unmanned aerial vehicles and are connected with the purification unmanned aerial vehicles for providing the expansion of the planting platform; the number of the planting hydraulic pumps is consistent with that of the planting channels, the planting hydraulic pumps are arranged in the planting channels, and the planting hydraulic pumps are respectively connected with the planting channels and the planting hydraulic rods and used for driving the connected planting hydraulic rods to stretch and contract; the planting hydraulic rods are consistent in number with the planting hydraulic pumps, are arranged in the planting channel, are respectively connected with the planting hydraulic pumps and the planting platform, and are used for driving the connected planting platform to stretch; the planting platforms are the same in number as the planting hydraulic rods, are arranged at the front ends of the planting hydraulic rods, are respectively connected with the planting hydraulic rods and the planting grooves and are used for extending out the connected planting grooves; the planting grooves are arranged at a plurality of positions in the planting platform, are connected with the planting platform and are used for providing plants for households in the multi-storey building;

the collision device comprises a telescopic channel, a telescopic motor, a telescopic pillar, a telescopic base, a support channel, a support motor and a support baffle, wherein the telescopic channel is provided with a plurality of telescopic pillars and is arranged at the inner position of the side end of the unmanned aerial vehicle for providing telescopic action of the telescopic base; the number of the telescopic motors is consistent with that of the telescopic channels, the telescopic motors are arranged in the telescopic channels, and the telescopic motors are respectively connected with the telescopic channels and the telescopic pillars and used for driving the connected telescopic pillars to stretch; the number of the telescopic struts is consistent with that of the telescopic motors, the telescopic struts are arranged at the inner positions of the telescopic channel, and the telescopic struts are respectively connected with the telescopic motors and the telescopic bases and used for driving the connected telescopic bases to stretch; the number of the telescopic bases is consistent with that of the telescopic support columns, the telescopic bases are arranged at the front ends of the telescopic support columns, are connected with the telescopic support columns and are used for abutting against the supporting baffle after being extended out; the supporting channels are arranged at a plurality of positions in the multi-story building below the spliced window and used for providing the extension and contraction of the supporting baffle plates; the number of the supporting motors is consistent with that of the supporting channels, the supporting motors are arranged in the supporting channels, and the supporting motors are respectively connected with the supporting channels and the supporting baffles and used for driving the connected supporting baffles to stretch and retract; the number of the supporting baffles is consistent with that of the supporting motors, the supporting baffles are arranged in the supporting channel, are connected with the supporting motors and are used for abutting against the telescopic base after being extended out;

2. The intelligent environment purifying system based on mobile payment according to claim 1, wherein the multi-story building is further provided with a shielding channel, a shielding motor and a telescopic shielding plate, wherein the shielding channel is provided with a plurality of shielding channels and is arranged at an internal position of the multi-story building above the spliced window for providing the telescopic shielding plate to stretch; the shielding motors are consistent in number with the shielding channels, are arranged in the shielding channels, are respectively connected with the shielding channels, the wireless device and the telescopic shielding plates, and are used for driving the telescopic shielding plates connected with the shielding channels to stretch; the flexible shielding plate quantity with shelter from motor quantity unanimity and set up in sheltering from passageway internal position, and be connected with the motor that shelters from, stretch out the back for shelter from the rainwater.

3. The intelligent environment purification system based on mobile payment according to claim 1, further comprising a fixing device, wherein the fixing device comprises a fixed bottom groove, a fixed motor and a telescopic fixing plate, the fixed bottom groove is provided with a plurality of fixing holes and is arranged at the upper surface position of the supporting baffle plate, and the fixing holes are used for abutting against and fixing the telescopic base; the fixed motors are arranged at a plurality of positions in the telescopic base, are respectively connected with the telescopic base, the wireless device and the telescopic fixed plate, and are used for driving the connected telescopic fixed plate to stretch; the number of the telescopic fixing plates is consistent with that of the fixed motors, the telescopic fixing plates are arranged in the inner positions of the telescopic bases, connected with the fixed motors and used for fixing the telescopic bases after being stretched out.

4. The intelligent environment purification system based on mobile payment of claim 3, wherein the fixing device further comprises a plurality of fixing grooves, the fixing grooves are arranged at the side positions of the fixing bottom groove, and are respectively connected with the fixing base and the supporting baffle plate, and the fixing grooves are used for abutting against and fixing with the telescopic fixing plate.

5. The intelligent environment purification system based on mobile payment according to claim 1, wherein the splicing device further comprises a second splicing channel, a second splicing motor and a second splicing plate, wherein the second splicing channel is provided with a plurality of splicing channels, is arranged at an inner position of the front end of the first splicing plate and is used for providing the second splicing plate to stretch; the number of the second splicing motors is consistent with that of the second splicing channels, the second splicing motors are arranged in the second splicing channels, and the second splicing motors are respectively connected with the second splicing channels, the wireless devices and the second splicing plates and used for driving the connected second splicing plates to stretch; the number of the second splicing plates is consistent with that of the second splicing motors, the second splicing plates are arranged in the inner position of the second splicing channel, are connected with the second splicing motors, and are used for fixing the first splicing plates after extending out.

6. The intelligent environment purification system based on mobile payment of claim 5, wherein the splicing device further comprises a second splicing groove, the second splicing groove is provided with a plurality of grooves and is arranged at a side position of the first splicing groove, and is vertically connected with the first splicing groove and used for abutting against and fixing with the second splicing plate.

7. The intelligent environment purification system based on mobile payment according to claim 1, wherein the splicing device further comprises splicing closed motors and splicing closed plates, the number of the splicing closed motors is consistent with that of the first splicing grooves, the splicing closed motors are arranged at the inner positions of the splicing windows at the sides of the first splicing grooves, and the splicing closed motors are respectively connected with the splicing windows, the wireless devices and the splicing closed plates and used for driving the connected splicing closed plates to stretch and retract; the splicing sealing plate number is consistent with the splicing sealing motor number, is arranged in the inner position of the splicing window on the side of the first splicing groove, is respectively connected with the splicing window, the first splicing groove and the splicing sealing motor, and is used for the first splicing groove connected with the switch.

8. The intelligent environment purification system based on mobile payment according to claim 1, wherein the planting device further comprises a clear water storage bin, a clear water spray head and a clear water guide pipe, the number of the planting grooves is the same as that of the purification unmanned aerial vehicles, the planting grooves are arranged at the inner position of the lower end of the purification unmanned aerial vehicles and are connected with the purification unmanned aerial vehicles, and the planting grooves are used for providing plants for households in a multi-story building house; the number of the clear water storage bins is consistent with that of the purification unmanned aerial vehicles, and the clear water storage bins are arranged in the purification unmanned aerial vehicles and used for storing clear water; the clear water spray heads are arranged at the inner positions of the lower ends of the purifying unmanned aerial vehicles, are respectively connected with the purifying unmanned aerial vehicles and the clear water guide pipes, and are used for spraying clear water in the connected clear water storage bins to the planting grooves through the clear water guide pipes; clear water pipe quantity is unanimous with clear water shower nozzle quantity and sets up in purifying unmanned aerial vehicle inside position, and is connected with clear water storage storehouse and clear water shower nozzle respectively for the leading-in clear water shower nozzle inside position of connecting of clear water storage storehouse inside clear water of connecting.

9. The intelligent environment purification system based on mobile payment of claim 8, wherein the planting device further comprises a clear water channel, the clear water channel is provided with a plurality of channels and is arranged at an internal position of the unmanned aerial vehicle, and is connected with the clear water storage bin for guiding clear water to enter the clear water storage bin.

10. The intelligent environment purification system based on mobile payment according to claim 9, wherein the collision device further comprises a sealing motor, a sealing collision port and a sealing collision groove, the number of the sealing motors and the number of the purification unmanned aerial vehicles are arranged at the inner positions of the purification unmanned aerial vehicles, and the sealing motors are respectively connected with the purification unmanned aerial vehicles, the wireless device and the sealing collision port for driving the connected sealing collision port to stretch; the number of the sealing abutting openings is consistent with that of the sealing motors, the sealing abutting openings are arranged at the side positions of the clear water channel, and the sealing abutting openings are respectively connected with the clear water channel and the purification unmanned aerial vehicle and used for abutting and sealing with the sealing abutting grooves; sealed conflict groove is provided with a plurality of and sets up in concatenation window inner wall surface position, and is connected and is provided with the ooff valve with the water supply system of concatenation window and multi-storey building respectively for sealed fixed and sealed conflict mouthful inside sealed fixed the conflict mouthful of leading-in sealed fixed clear water of the water supply system inside with sealed conflict mouthful.