CN110485516B - Intelligent public service method and system based on big data processing analysis - Google Patents

Intelligent public service method and system based on big data processing analysis Download PDF

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Publication number
CN110485516B
CN110485516B CN201910791586.0A CN201910791586A CN110485516B CN 110485516 B CN110485516 B CN 110485516B CN 201910791586 A CN201910791586 A CN 201910791586A CN 110485516 B CN110485516 B CN 110485516B
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cleaning
controlling
groove
hand washing
brush plate
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CN110485516A (en
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徐建红
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Guizhou pilot video information technology Co.,Ltd.
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Guizhou Pilot Video Information Technology Co ltd
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    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03CDOMESTIC PLUMBING INSTALLATIONS FOR FRESH WATER OR WASTE WATER; SINKS
    • E03C1/00Domestic plumbing installations for fresh water or waste water; Sinks
    • E03C1/02Plumbing installations for fresh water
    • E03C1/04Water-basin installations specially adapted to wash-basins or baths
    • E03C1/0404Constructional or functional features of the spout
    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03CDOMESTIC PLUMBING INSTALLATIONS FOR FRESH WATER OR WASTE WATER; SINKS
    • E03C1/00Domestic plumbing installations for fresh water or waste water; Sinks
    • E03C1/02Plumbing installations for fresh water
    • E03C1/05Arrangements of devices on wash-basins, baths, sinks, or the like for remote control of taps
    • E03C1/055Electrical control devices, e.g. with push buttons, control panels or the like
    • E03C1/057Electrical control devices, e.g. with push buttons, control panels or the like touchless, i.e. using sensors
    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03CDOMESTIC PLUMBING INSTALLATIONS FOR FRESH WATER OR WASTE WATER; SINKS
    • E03C1/00Domestic plumbing installations for fresh water or waste water; Sinks
    • E03C1/02Plumbing installations for fresh water
    • E03C1/04Water-basin installations specially adapted to wash-basins or baths
    • E03C2001/0415Water-basin installations specially adapted to wash-basins or baths having an extendable water outlet

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  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Hydrology & Water Resources (AREA)
  • Public Health (AREA)
  • Water Supply & Treatment (AREA)
  • Automatic Analysis And Handling Materials Therefor (AREA)
  • Cleaning In General (AREA)

Abstract

An intelligent public service method and system based on big data processing and analysis comprises the following steps: the method comprises the steps of controlling an infrared sensor to be started and controlling a switch door body to be completely contracted to completely expose a clean water outlet, controlling the corresponding clean water outlet to be opened and controlling a groove telescoping mechanism to drive a top plate to drive a silica gel layer to be contracted downwards to form a water flow groove if the front end of the clean water outlet is analyzed to have a human body, controlling the groove telescoping mechanism to drive the top plate to be closed and controlling the groove telescoping mechanism to drive the top plate to drive the silica gel layer to completely extend out of a leveling hand washing position if the front end of the hand washing position is analyzed to have the human body leave, controlling the clean door body to be completely contracted to open a cleaning groove and controlling a cleaning mechanism to drive a cleaning brush plate to move into the cleaning groove on the right side of the hand washing position, controlling a first pushing mechanism to drive a first pushing brush plate to extend out and controlling a first electric valve to open, controlling the cleaning mechanism to drive the cleaning.

Description

Intelligent public service method and system based on big data processing analysis
Technical Field
The invention relates to the field of public hand washing pools, in particular to an intelligent public service method and system based on big data processing and analysis.
Background
The hand washing sink is an essential article for every family, and the existing hand washing sink is various in appearance and single in function. After hands are washed each time, the water tank is stained with water, the water tank is not easy to dry, dust is easy to stain, the water tank becomes dirty, and bacteria are easy to grow.
However, how to combine big data with the hand washing sink is a problem which is urgently needed to be solved at present, after a person is identified to need to wash hands, the groove telescoping mechanism is controlled to be retracted to form a water flow groove while water is discharged from the water outlet, after the person is cleaned, the groove telescoping mechanism is controlled to extend out to flatten a hand washing position area, then the cleaning brush plate is controlled to brush from the flattened cleaning position, and stains are intelligently cleaned.
Disclosure of Invention
The purpose of the invention is as follows: in order to overcome the disadvantages in the background art, embodiments of the present invention provide an intelligent public service method and system based on big data processing and analysis, which can effectively solve the problems related to the background art.
The technical scheme is as follows:
an intelligent public service method based on big data processing analysis, the method comprising the steps of:
s1, controlling an infrared sensor arranged at the inner position of the wall of the hand washing station to start to acquire human body identification information in real time and controlling a switch door body arranged at the inner position of the wall of the hand washing sink to be completely contracted to completely expose a clean water outlet;
s2, if a human body exists at the front end of the cleaning water outlet according to the human body identification information, controlling the corresponding cleaning water outlet to be opened to discharge cleaning water and controlling a top plate which is arranged at the inner position of the corresponding hand washing position and is driven by a groove telescopic mechanism to be connected to drive a silica gel layer to contract downwards for a preset distance to form a water flow groove;
s3, if the human body in the hand washing position leaves according to the human body identification information, controlling the cleaning water outlet which is correspondingly opened to be closed and controlling the top plate which is correspondingly connected with the groove telescopic mechanism in the hand washing position to drive the silica gel layer to completely extend out of the laid hand washing position;
s4, controlling the cleaning door bodies arranged at the inner positions of the walls at the two sides of the hand washing position to completely contract to open the cleaning grooves and controlling the cleaning mechanism stored at the inner position of the cleaning groove at the left side of the hand washing position to drive the connected cleaning brush plate to move to the inner part of the cleaning groove at the right side of the hand washing position;
s5, controlling a first pushing mechanism arranged at the inner position of the cleaning groove at the right side of the hand washing position to drive a connected first pushing brush plate to move from the front end of the cleaning groove to the tail end position of the cleaning groove, and controlling a first electric valve arranged at the inner position of the tail end of the cleaning groove at the right side of the hand washing position to be opened;
s6, controlling the cleaning brush plate connected with the cleaning mechanism to move back to the cleaning groove on the left side of the hand washing position and controlling a second pushing mechanism arranged in the cleaning groove on the left side of the hand washing position to drive a second pushing brush plate connected with the cleaning mechanism to move from the front end of the cleaning groove to the tail end of the cleaning groove;
and S7, controlling a second electric valve arranged at the inner position of the tail end of the cleaning groove at the left side of the hand washing position to open and controlling a cleaning door body arranged at the inner end positions of the walls at the two sides of the hand washing position to completely extend out to close the cleaning groove.
As a preferable mode of the present invention, in S2, the method further includes the steps of:
s20, after the clean water outlet is opened, controlling a water flow sensor arranged in the clean water outlet to acquire water flow information in real time and calculating the depth information of the water flow groove according to the water flow information;
s21, controlling the distance of the top plate which is arranged at the inner position of the corresponding hand washing position and is driven and connected by the groove telescoping mechanism according to the calculated depth information of the water flow groove to drive the silica gel layer to contract downwards to form the water flow groove.
As a preferable mode of the present invention, in S4, the method further includes the steps of:
s40, controlling an ultrasonic sensor arranged at the front end of the cleaning brush plate to start to acquire barrier identification information in real time and analyzing whether a barrier exists at the position from the front end of the cleaning brush plate to a cleaning groove at the right side of the hand washing position or not according to the barrier identification information;
and S41, if so, canceling to control the cleaning brush plate which is in driving connection with the cleaning mechanism which is in straight line correspondence with the obstacle to move.
As a preferred mode of the present invention, the method further comprises the steps of:
s8, after the first electric valve is opened, controlling a decontamination push plate which is arranged at the inner position of the side of a drain pipe connected with the first electric valve and is in driving connection with a decontamination telescopic mechanism to extend out every first preset time so as to push the solid residue at the position of a filter disc of the drain pipe to a residue channel;
and S9, controlling the garbage crushing equipment arranged in the residue channel to start crushing the solid residues falling from the residue channel and discharging the crushed solid residues to the residue storage bin at intervals of second preset time.
As a preferable mode of the present invention, in S4, the method further includes the steps of:
s42, controlling a disinfection sprayer arranged at the top end inside the cleaning groove to start spraying disinfectant to the outer side of the cleaning brush plate and controlling a cleaning drying port arranged at the bottom end of the cleaning brush plate to start to enter a dewatering state;
and S43, controlling a water baffle plate which is arranged at the inner position outside the hand washing station and is driven and connected by a water baffle telescopic mechanism to extend out to form a water blocking groove.
An intelligent public service system based on big data processing analysis uses an intelligent public service method based on big data processing analysis, and comprises a cleaning device, a water tank device, a recognition device and a server;
the cleaning device comprises a hand washing position, a door opening and closing body, a cleaning water outlet, a cleaning door body, a cleaning groove, a cleaning mechanism, a cleaning brush plate, a first pushing mechanism, a first pushing brush plate, a second pushing mechanism, a second pushing brush plate, a disinfection sprayer, a disinfectant storage bin and a cleaning and drying opening, wherein the hand washing position is arranged at a public service place; the switch door body is arranged at the inner side position of the hand washing position and used for exposing the clean water outlet after being completely contracted; the cleaning water outlet is arranged at the inner side position of the hand washing position and used for providing cleaning water; the cleaning door bodies are arranged at the inner positions of the walls at the two sides of the hand washing position and used for opening and closing the cleaning groove; the cleaning grooves are arranged in the inner positions of the walls on the two sides of the hand washing position and used for storing the cleaning brush plates; the cleaning mechanism is arranged at the position below the cleaning brush plate and used for driving the cleaning brush plate to move in the hand washing area; the cleaning brush plate is stored in the cleaning groove and used for cleaning solid residues and water stains in the hand washing position area; the first pushing mechanism is arranged at the front end of the cleaning groove at the right side of the hand washing position, is connected with the first pushing brush plate and is used for driving the connected first pushing brush plate to extend out to the tail end of the cleaning groove; the first pushing brush plate is arranged at the front end of the cleaning groove at the right side of the hand washing position and used for pushing the solid residues and the sewage of the cleaning brush plate in the cleaning groove to the inside of a drainage pipe at the tail end of the cleaning groove; the second pushing mechanism is arranged at the front end of the cleaning groove on the left side of the hand washing position, is connected with the second pushing brush plate and is used for driving the connected second pushing brush plate to extend out to the tail end of the cleaning groove; the second pushing brush plate is arranged at the front position of the cleaning groove at the left side of the hand washing position and used for pushing the solid residues and the sewage of the cleaning brush plate in the cleaning groove to the interior of a second sewage discharge pipeline at the tail end of the cleaning groove; the disinfectant sprayer is arranged at the top end inside the cleaning groove, is connected with the disinfectant storage bin and is used for spraying disinfectant to the position outside the cleaning brush plate; the disinfectant storage bin is arranged at the inner position of the top end of the cleaning groove and used for storing disinfectant; the cleaning and drying port is arranged at the bottom end of the cleaning brush plate and is used for drying a hand washing site area at the bottom end of the cleaning brush plate;
the water tank device comprises a groove telescopic mechanism, a top plate, a silica gel layer, a drainage tank, a first drainage pipeline, a second drainage pipeline, a first electric valve, a second electric valve, a drainage pipe, a filter disc, a decontamination telescopic mechanism, a decontamination push plate, a residue channel, garbage crushing equipment, a residue storage bin, a water retaining telescopic mechanism and a water retaining plate, wherein the groove telescopic mechanism is arranged at the inner position of the hand washing position, is connected with the top plate, corresponds to the cleaning water outlet and is used for driving the connected top plate to stretch; the top plate is arranged at a hand washing position corresponding to the cleaning water outlet, is connected with the silica gel layer and is used for driving the silica gel layer to contract to form a water flow groove; the silica gel layer is respectively connected with the hand washing position and the top plate and is used for stretching and shrinking along with the connected top plate; the drainage groove is arranged at the side position of the hand washing position and used for exposing the top plate after the top plate is contracted for drainage; the first sewage discharge pipeline is connected with the water discharge pipe and is used for discharging sewage led in by the water discharge pipe to a sewage discharge area; the second sewage discharge pipeline is arranged at the inner position of the tail end of the cleaning tank on the left side of the hand washing position and is used for discharging sewage to a sewage discharge area; the first electric valve is arranged at the connecting position of the drain pipe and the first sewage discharge pipeline and used for opening and closing the first sewage discharge pipeline; the second electric valve is arranged at the position of the second sewage discharge pipeline and used for opening and closing the second sewage discharge pipeline; the drain pipe is arranged in the inner position of the tail end of the right cleaning groove at the hand washing position and is connected with the first drain pipeline; the filter disc is arranged in the middle of the drain pipe and used for providing solid-liquid separation; the decontamination telescoping mechanism is arranged at the inner position of the side of the drain pipe where the filter disc is located, is connected with the decontamination push plate and is used for driving the connected decontamination push plate to telescope; the decontamination push plate is arranged on the side wall of the drain pipe where the filter disc is positioned and used for pushing the solid residues at the position of the filter disc to the inside of the residue channel; the residue channel is arranged at the side position of the drain pipe, is connected with the garbage crushing equipment and is used for guiding solid residues into the garbage crushing equipment; the residue storage bin is connected with the garbage crushing equipment and is used for storing residues crushed by the garbage crushing equipment; the water retaining telescopic mechanism is arranged at the inner position outside the hand washing station, is connected with the water retaining plate and is used for driving the connected water retaining plate to stretch; the water baffle is arranged at the outer side of the hand washing position and is used for forming a water blocking groove after extending out;
the identification device comprises an infrared sensor, a water flow sensor and an ultrasonic sensor, wherein the infrared sensor is arranged on the wall position on the inner side of the hand washing position, corresponds to the clean water outlet and is used for acquiring human body identification information; the water flow sensor is arranged at the inner position of a water supply pipeline connected with the clean water outlet and used for acquiring water flow information of the clean water outlet; the ultrasonic sensor is arranged at the side position of the cleaning brush plate and used for acquiring obstacle identification information of the side linear distance of the cleaning brush plate;
the server is arranged at a placement position planned by a public service management department, and comprises:
the wireless module is used for being wirelessly connected with a switch door body, a cleaning water outlet, a cleaning door body, a cleaning mechanism, a first pushing mechanism, a second pushing mechanism, a disinfection sprayer, a cleaning and drying opening, a groove telescopic mechanism, a first electric valve, a second electric valve, a decontamination telescopic mechanism, garbage crushing equipment, an infrared inductor, a water flow sensor, an ultrasonic sensor, external equipment of a public service management department and a network respectively;
the human body recognition module is used for controlling the infrared sensor to be started or closed;
the water outlet switch module is used for controlling the switch door body to stretch;
the information analysis module is used for processing and analyzing the information according to the specified information;
the cleaning water outlet module is used for controlling the opening or closing of the cleaning water outlet;
the groove telescopic module is used for controlling the groove telescopic mechanism to drive the top plate to stretch;
the cleaning switch module is used for controlling the cleaning door body to stretch and retract;
the cleaning driving module is used for controlling the cleaning mechanism to drive the cleaning brush plate to execute set operation;
the first pushing module is used for controlling the first pushing mechanism to drive the first pushing brush plate to stretch;
the first valve module is used for controlling the first electric valve to be switched;
the second pushing module is used for controlling the second pushing mechanism to drive the second pushing brush plate to stretch;
and the second valve module is used for controlling the second electric valve to be switched on and off.
As a preferred aspect of the present invention, the server further includes:
the water flow module is used for controlling the water flow sensor to be started or closed;
and the flow calculation module is used for calculating the depth information of the required water flow groove according to the water flow information acquired by the water flow sensor.
As a preferred aspect of the present invention, the server further includes:
and the ultrasonic module is used for controlling the ultrasonic sensor to be started or closed.
As a preferred aspect of the present invention, the server further includes:
the decontamination control module is used for controlling the decontamination telescopic mechanism to drive the decontamination push plate to stretch;
and the garbage crushing module is used for controlling the starting or closing of the garbage crushing equipment.
As a preferred aspect of the present invention, the server further includes:
the disinfection control module is used for controlling the disinfection sprayer to be started or closed;
the cleaning and drying module is used for controlling the cleaning and drying opening to be started or closed;
and the water blocking control module is used for controlling the water blocking telescopic mechanism to drive the water blocking plate to stretch.
The invention realizes the following beneficial effects:
1. after the intelligent public service system is started, human body information of a hand washing position area is identified in real time, if a human body exists, the cleaning water outlet is controlled to discharge cleaning water, and the top plate is controlled to drive the silica gel layer to contract to form a water flow groove with a corresponding depth to discharge sewage; when no human body exists in the hand washing position area, the cleaning grooves on the left side and the right side of the hand washing position are controlled to be opened, then the cleaning brush plates are controlled to push solid residues and sewage on the upper surface of the hand washing position into the cleaning grooves on the right side of the hand washing position, the cleaning brush plates are cleaned by the second pushing brush plate and reset, and then the first pushing vertical plate is controlled to clean; therefore, stains on the upper surface of the hand washing position are intelligently cleaned, and the phenomenon that the use of people is influenced because sewage exists on the upper surface of a public hand washing position is avoided.
2. Solid residue is smashed to intelligence and discharges kibbling solid residue to residue storage storehouse and save to wait for the cleanup crew to handle, avoid solid residue to remain in the hand washing position, cause sanitary problems such as pollution.
3. The intelligence is disinfected for the cleaning brush board and is dried for the region that the cleaning brush board removed to.
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 flow chart of an intelligent public service method provided by one example of the present invention;
FIG. 2 is a flow chart of a top plate contraction distance calculation method according to an exemplary embodiment of the present invention;
fig. 3 is a flowchart of an obstacle identification processing method according to an example of the present invention;
FIG. 4 is a flow chart of a residue processing method according to an exemplary embodiment of the present invention;
FIG. 5 is a flow chart of a sterilization drying process according to an exemplary embodiment of the present invention;
FIG. 6 is a connection diagram of an intelligent public service system provided by one example of the present invention;
FIG. 7 is a schematic, partially cross-sectional front view of an area of a hand washing station according to one embodiment of the present invention;
FIG. 8 is a schematic side view, partially in section, of an area where a clean water outlet is located according to one embodiment of the present invention;
FIG. 9 is a schematic view of a cleaning brush plate according to one embodiment of the present invention;
FIG. 10 is a schematic cross-sectional view of the area of the cleaning tank on the left side of the cleaning station according to one embodiment of the present invention;
FIG. 11 is a schematic cross-sectional view of the right side cleaning slot area of the cleaning station according to one embodiment of the present invention;
FIG. 12 is a schematic view, partially in section, of an area in which a waste shredding facility according to one embodiment of the present invention is located;
fig. 13 is a partially schematic cross-sectional view of a front end of a side of a hand washing station according to an example 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.
Example one
Referring to fig. 1-3, fig. 6-11.
Specifically, the present embodiment provides an intelligent public service method based on big data processing analysis, where the method includes the following steps:
s1, controlling the infrared sensor 30 arranged at the inner wall position of the hand washing position 100 to start to acquire the human body identification information in real time and controlling the switch door body 101 arranged at the inner wall position of the hand washing sink to be completely contracted to completely expose the clean water outlet 102.
S2, if it is analyzed according to the human body identification information that a human body exists at the front end of the cleaning water outlet 102, the corresponding cleaning water outlet 102 is controlled to be opened to discharge cleaning water, and the top plate 201 connected with the groove telescopic mechanism 200 arranged at the inner position corresponding to the hand washing position 100 is controlled to drive the silica gel layer 202 to contract downwards for a preset distance to form a water flow groove.
S3, if the human body leaving the hand washing position 100 is analyzed according to the human body identification information, the correspondingly opened clean water outlet 102 is controlled to be closed, and the correspondingly opened groove telescopic mechanism 200 of the hand washing position 100 is controlled to drive the connected top plate 201 to drive the silica gel layer 202 to completely extend out of the flat hand washing position 100.
S4, controlling the cleaning door bodies 103 arranged at the inner positions of the two side walls of the hand washing position 100 to completely contract and open the cleaning grooves 104, and controlling the cleaning mechanism 105 stored at the inner position of the cleaning groove 104 at the left side of the hand washing position 100 to drive the connected cleaning brush plate 106 to move to the inner part of the cleaning groove 104 at the right side of the hand washing position 100.
S5, controlling the first pushing mechanism 107 arranged at the inner position of the cleaning groove 104 at the right side of the hand washing position 100 to drive the connected first pushing brush plate 108 to move from the front end of the cleaning groove 104 to the tail end position of the cleaning groove 104, and controlling the first electric valve 206 arranged at the inner position of the tail end of the cleaning groove 104 at the right side of the hand washing position 100 to be opened.
S6, controlling the cleaning brush plate 106 driven and connected by the cleaning mechanism 105 to move back into the cleaning groove 104 on the left side of the hand washing position 100 and controlling the second pushing mechanism 109 arranged in the cleaning groove 104 on the left side of the hand washing position 100 to drive and connect the second pushing brush plate 110 to move from the front end of the cleaning groove 104 to the tail end of the cleaning groove 104.
S7, controlling the second electric valve 207 arranged at the inner position of the tail end of the cleaning groove 104 at the left side of the hand washing position 100 to open and controlling the cleaning door bodies 103 arranged at the inner end positions of the two side walls of the hand washing position 100 to completely extend out to close the cleaning groove 104.
In S1, specifically, after the server 4 is started, the human body identification module 41 inside the server 4 controls all the infrared sensors connected to the wireless module 40 to start to acquire the human body identification information of the area of the hand washing position 100 in real time, the water outlet switch module 42 inside the server 4 controls the switch door 101 connected to the wireless module 40 to be completely retracted to completely expose the clean water outlet 102, the clean water outlet 102 is connected to a water supply pipeline, and the clean water outlets 102 are uniformly arranged on the inner wall of the hand washing position 100 to prevent the problem of insufficient water faucet when a large number of people wash hands.
In S2, particularly after the infrared sensor is started and the clean water outlet 102 is exposed, the information analysis module 43 inside the server 4 analyzes whether a human body exists at the front end of the cleaning water outlet 102 in real time according to the human body identification information, after the information analysis module 43 analyzes that a human body exists at the front end of the cleaning water outlet 102 according to the human body identification information, the cleaning water outlet module 44 inside the server 4 controls the cleaning water outlet 102 corresponding to the human body existing region to open and discharge cleaning water, meanwhile, the groove stretching module 45 of the server 4 controls the groove stretching mechanism 200 in the human body existing region corresponding to the interior of the hand washing position 100 to drive the connected top plate 201 to drive the connected silica gel layer 202 to shrink downwards for a preset distance so as to form a water flow groove, after the water flow groove is formed, the drainage groove 203 is exposed, and the cleaning water discharged from the cleaning water outlet 102 is discharged to the drainage groove 203 through the water flow groove; the preset distance is a distance matched according to the water flow rate of the clean water outlet 102, for example, the preset distance is 3 cm when the water flow rate is 0.2L/s.
In S3, after the cleaning water outlet 102 is completely opened, the information analysis module 43 analyzes whether the human body at the hand washing position 100 leaves according to the human body identification information, if the information analysis module 43 analyzes that the human body at the hand washing position 100 leaves according to the human body identification information, the cleaning water outlet module 44 controls the cleaning water outlet 102 opened corresponding to the person leaving to be closed, and meanwhile, the groove stretching module 45 controls the top plate 201 connected to the groove stretching mechanism 200 extending corresponding to the person leaving to drive the silica gel layer 202 to completely stretch out, so as to flatten the upper surface of the hand washing position 100.
In S4, specifically after the information analysis module 43 analyzes that there is no other human body in the area of the hand washing position 100, the cleaning switch module 46 inside the server 4 controls the cleaning door bodies 103 inside the two side walls of the hand washing position 100 to completely contract and open the cleaning slot 104, and after the cleaning slot 104 is completely opened, the cleaning driving module 47 inside the server 4 controls the cleaning mechanism 105 stored in the inside of the cleaning slot 104 on the left side of the hand washing position 100 to drive the connected cleaning brush plate 106 to move to the inside of the cleaning slot 104 on the right side of the hand washing position 100, that is, controls the cleaning brush plate 106 of the cleaning slot 104 on the left side to move to the inside of the cleaning slot 104 on the right side to stop.
In S5, specifically, after the cleaning brush 106 in the left cleaning bath 104 is moved to the inside of the right cleaning bath 104 and stops, the first pushing module 48 in the server 4 controls the first pushing mechanism 107 in the right cleaning tank 104 to drive the connected first pushing brush plate 108 to move from the front end of the cleaning tank 104 to the tail end of the cleaning tank 104, so as to push the solid residue and the sewage pushed by the cleaning brush plate 106 into the drain pipe 208 of the right cleaning tank 104, the solid residue is trapped by the filter disc 209 of the drain pipe 208, then the sewage is led into the first sewage discharge pipe 204, and simultaneously the first valve module 49 inside the server 4 controls the first electric valve 206 connected with the water discharge pipe 208 of the right cleaning tank 104 to be opened, so that the first sewage drain pipe 204 is opened and the sewage introduced by the drain pipe 208 is discharged to the connected sewage discharge area by the first sewage drain pipe 204.
In S6, specifically, after the first pushing mechanism 107 drives the first pushing brush plate 108 to move from the front end of the cleaning tank 104 to the rear end of the cleaning tank 104 and then from the rear end of the cleaning tank 104 to the front end of the cleaning tank 104, the cleaning driving module 47 controls the cleaning mechanism 105 to drive the connected cleaning brush plate 106 to move back to the cleaning tank 104 on the left side of the hand washing position 100, and after the cleaning brush is controlled to move and reset, the second pushing module 50 inside the server 4 controls the second pushing mechanism 109 inside the cleaning tank 104 on the left side to drive the connected second pushing brush plate 110 to move from the front end of the cleaning tank 104 to the rear end of the cleaning tank 104, so as to push the sewage carried by the cleaning brush plate 106 back to the second sewage discharge pipe 205 of the cleaning tank 104 on the left side.
At S7, specifically, while the second pushing mechanism 109 drives the connected second pushing brush plate 110 to move from the front end of the cleaning tank 104 to the rear end of the cleaning tank 104, the second valve module 51 inside the server 4 controls the second electric valve 207 of the left cleaning tank 104 to open, so as to open the second sewage discharge pipe 205, and the second sewage discharge pipe 205 discharges the introduced sewage to the connected sewage discharge area; meanwhile, the cleaning switch module 46 controls the cleaning door bodies 103 at the inner positions of the walls at the two sides of the hand washing position 100 to completely extend out, and closes the cleaning groove 104; and the second pushing mechanism 109 drives the second pushing brush plate 110 to move from the rear end of the cleaning tank 104 to the front end of the cleaning tank 104.
As a preferable mode of the present invention, in S2, the method further includes the steps of:
and S20, after the clean water outlet 102 is opened, controlling the water flow sensor 31 arranged in the clean water outlet 102 to acquire water flow information in real time and calculating the depth information of the required water flow groove according to the water flow information.
S21, controlling the distance of the top plate 201 which is driven and connected by the groove telescoping mechanism 200 and is arranged at the inner position corresponding to the hand washing position 100 to drive the silica gel layer 202 to contract downwards to form the water flow groove according to the calculated depth information of the water flow groove.
Specifically, after the clean water outlet module 44 controls the clean water outlet 102 to be opened, the water flow module 52 in the server 4 controls the water flow sensor 31 arranged in the water supply pipeline connected to the opened clean water outlet 102 to start to acquire water flow information in real time, and then the flow calculation module 53 in the server 4 calculates the depth information of the required water flow groove according to the water flow information.
The water flow and water flow groove depth calculation table is as follows: and the maximum expansion and contraction distance of the groove expansion and contraction mechanism 200 is set to 12 cm.
Water flow rate Required depth of water flow channel
0.1L/s-0.2L/s 3 cm
0.21L/s-0.4L/s 5 cm
0.41L/s-0.7L/s 7 cm
0.71L/s-1L/s 10 cm
1.01L/s and above 12 cm
Specifically, after the flow calculation module 53 calculates the required water flow groove depth information, the groove expansion module 45 controls the top plate 201, which is arranged at the internal position of the corresponding hand washing position 100 and is driven by the groove expansion mechanism 200, to drive the silica gel layer 202 to contract downwards by a matching distance according to the calculated required water flow groove depth information, so as to form a water flow groove; the matching distance is the distance that the top plate 201 connected with the groove telescoping mechanism 200 in a driving manner contracts is equal to the calculated required water flow groove depth information, for example, if the calculated required water flow groove depth is 5 cm, the top plate 201 connected with the groove telescoping mechanism 200 in the driving manner contracts by 5 cm.
As a preferable mode of the present invention, in S4, the method further includes the steps of:
and S40, controlling the ultrasonic sensor 32 arranged at the front end of the cleaning brush plate 106 to start to acquire obstacle identification information in real time and analyzing whether obstacles exist at the position from the front end of the cleaning brush plate 106 to the cleaning groove 104 on the right side of the hand washing station 100 or not according to the obstacle identification information.
And S41, if yes, the cleaning brush plate 106 which is in driving connection with the cleaning mechanism 105 which is in straight line correspondence with the obstacle is cancelled.
Wherein, the obstacles do not comprise solid residues, sewage and other small garbage.
Specifically, before the cleaning mechanism 105 drives the cleaning brush plate 106 to move, the ultrasonic module 54 in the server 4 controls the ultrasonic sensor 32 disposed at the front end of the cleaning brush plate 106 to start to acquire the identification information of the obstacle in the linear distance range of the front end of the cleaning brush plate 106 in real time, and after the ultrasonic sensor 32 is started, the information analysis module 43 analyzes whether the obstacle exists from the front end of the cleaning brush plate 106 to the position of the cleaning slot 104 on the right side of the hand washing space 100 according to the identification information of the obstacle, that is, whether the obstacle exists in the linear distance range of the front end of the cleaning brush plate 106.
Specifically, if the linear distance range of the front end of the cleaning brush plate 106 is within the linear distance range of the front end of the cleaning brush plate 106, the cleaning driving module 47 cancels the control of the start of the cleaning mechanism 105 corresponding to the cleaning brush plate 106 with the obstacle at the front end, that is, the cleaning brush plate 106 with the obstacle at the front end is controlled to cancel the movement, so as to avoid pushing and cleaning the bag, the mobile phone and other articles placed by the user.
Example two
Referring to fig. 4, fig. 6-7, and fig. 10-11.
Specifically, the present embodiment is substantially the same as the first embodiment, and the difference is that in the present embodiment, the method further includes the following steps:
s8, after the first electric valve 206 is opened, the decontamination extension mechanism 210 disposed at the inner side of the drain pipe 208 connected to the first electric valve 206 is controlled to drive the connected decontamination push plate 211 to extend to push the solid residue at the filter disc 209 of the drain pipe 208 to the residue channel 212 every a first preset time.
And S9, controlling the garbage crushing equipment 213 arranged in the residue channel 212 to start crushing the solid residues falling from the residue channel 212 at intervals of a second preset time, and discharging the crushed solid residues to the residue storage bin 214.
Wherein, the first preset time may be 1 second to 20 minutes, and is preferably 5 minutes in the embodiment; the second preset time may be 1 second to 10 minutes, preferably 30 seconds in this embodiment, after the dirt removing telescopic mechanism 210 drives the dirt removing push plate 211 to extend.
Specifically, after the first valve module 49 controls the first electric valve 206 to be opened, the decontamination control module 55 in the server 4 controls the decontamination telescopic mechanism 210 in the side of the drain pipe 208 to drive the connected decontamination push plate 211 to be pushed from the inner wall of one side of the drain pipe 208 to the residue channel 212 on the other side of the drain pipe 208 every 5 minutes, so as to push the solid residue on the filter disc 209 of the drain pipe 208 to the residue channel 212.
Specifically, after 30 seconds after the decontamination push plate 211 connected with the decontamination telescoping mechanism 210 is driven to extend out, the garbage crushing module 56 in the service control controls the garbage crushing device 213 arranged in the residue channel 212 to start for 2 minutes, so as to crush and discharge the solid residue in the residue channel 212 into the connected residue storage bin 214.
EXAMPLE III
As shown with reference to fig. 5-13.
Specifically, this embodiment is substantially the same as the first embodiment, except that in S4, the method further includes the following steps:
s42, controlling the disinfection sprayer 111 arranged at the top end inside the cleaning groove 104 to spray the disinfectant to the outer side of the cleaning brush plate 106 and controlling the cleaning drying port 113 arranged at the bottom end position of the cleaning brush plate 106 to start to enter a water removal state.
S43, controlling the water baffle expansion mechanism 215 arranged at the inner position outside the hand washing position 100 to drive the connected water baffle plate 216 to extend out to form a water blocking groove.
Specifically, before the cleaning brush plate 106 moves, the disinfection control module 57 in the server 4 controls the disinfection sprayer 111 at the top end of the cleaning tank 104 to start to spray the disinfectant to the outer side position of the cleaning brush plate 106 to be moved through the connected disinfectant storage bin 112 to disinfect the hand washing position 100, and the cleaning and drying module 58 in the server 4 controls the cleaning and drying port 113 at the bottom end of the cleaning brush plate 106 to be moved to start to dry the area to which the cleaning brush plate 106 moves in real time.
Specifically, before the cleaning brush 106 moves, the water blocking control module 59 in the server 4 controls the water blocking telescopic mechanism 215 in the outside of the hand washing station 100 to drive the connected water blocking plate 216 to extend out to form a water blocking groove, so as to prevent the cleaning brush 106 from pushing sewage to the ground area on the side of the hand washing station 100.
Example four
As shown with reference to fig. 6-13.
Specifically, the embodiment provides an intelligent public service system based on big data processing analysis, and an intelligent public service method based on big data processing analysis is used, and comprises a cleaning device 1, a water tank device 2, a recognition device 3 and a server 4.
The cleaning device 1 comprises a hand washing position 100, a switch door body 101, a cleaning water outlet 102, a cleaning door body 103, a cleaning groove 104, a cleaning mechanism 105, a cleaning brush plate 106, a first pushing mechanism 107, a first pushing brush plate 108, a second pushing mechanism 109, a second pushing brush plate 110, a disinfection sprayer 111, a disinfectant storage bin 112 and a cleaning and drying opening 113, wherein the hand washing position 100 is arranged at a public service place; the switch door body 101 is arranged at the inner side position of the hand washing position 100 and used for exposing the clean water outlet 102 after being completely contracted; the cleaning water outlet 102 is arranged at the inner side of the hand washing position 100 and is used for providing cleaning water; the cleaning door bodies 103 are arranged at the inner positions of the walls at the two sides of the hand washing position 100 and used for opening and closing the cleaning grooves 104; the cleaning grooves 104 are arranged at the inner positions of the walls at the two sides of the hand washing position 100 and are used for storing cleaning brush plates 106; the cleaning mechanism 105 is arranged at a position below the cleaning brush plate 106 and is used for driving the cleaning brush plate 106 to move in the area of the hand washing station 100; the cleaning brush plate 106 is stored in the inner position of the cleaning groove 104 and is used for cleaning solid residues and water stains in the area of the hand washing position 100; the first pushing mechanism 107 is arranged at the front end of the cleaning groove 104 at the right side of the hand washing position 100, is connected with the first pushing brush plate 108 and is used for driving the connected first pushing brush plate 108 to extend out to the tail end of the cleaning groove 104; the first pushing brush plate 108 is arranged at the front end of the cleaning groove 104 at the right side of the hand washing position 100 and is used for pushing the solid residues and the sewage of the cleaning brush plate 106 in the cleaning groove 104 to the inside of the drainage pipe 208 at the tail end of the cleaning groove 104; the second pushing mechanism 109 is arranged at the front end of the cleaning groove 104 at the left side of the hand washing position 100, is connected with the second pushing brush plate 110, and is used for driving the connected second pushing brush plate 110 to extend out to the tail end of the cleaning groove 104; the second pushing brush plate 110 is arranged at the front end of the cleaning groove 104 at the left side of the hand washing position 100 and is used for pushing the solid residues and the sewage of the cleaning brush plate 106 in the cleaning groove 104 to the second sewage discharge pipeline 205 at the tail end of the cleaning groove 104; the disinfection sprayer 111 is arranged at the top end inside the cleaning groove 104, is connected with the disinfectant storage bin 112, and is used for spraying disinfectant to the position outside the cleaning brush plate 106; the disinfectant storage bin 112 is arranged at an inner position at the top end of the cleaning tank 104 and is used for storing disinfectant; the cleaning and drying port 113 is disposed at the bottom end of the cleaning brush plate 106, and is used for drying the hand washing site 100 area at the bottom end of the cleaning brush plate 106.
The water tank device 2 comprises a groove telescoping mechanism 200, a top plate 201, a silica gel layer 202, a drainage tank 203, a first sewage discharge pipeline 204, a second sewage discharge pipeline 205, a first electric valve 206, a second electric valve 207, a drainage pipe 208, a filter disc 209, a decontamination telescoping mechanism 210, a decontamination push plate 211, a residue channel 212, garbage crushing equipment 213, a residue storage bin 214, a water blocking telescoping mechanism 215 and a water baffle 216, wherein the groove telescoping mechanism 200 is arranged at the inner position of the hand washing position 100, is connected with the top plate 201, corresponds to the clean water outlet 102 and is used for driving the connected top plate 201 to telescope; the top plate 201 is arranged on the hand washing position 100 corresponding to the cleaning water outlet 102 and connected with the silica gel layer 202, and is used for driving the silica gel layer 202 to contract to form a water flow groove; the silica gel layer 202 is respectively connected with the hand washing station 100 and the top plate 201 and is used for stretching and shrinking along with the connected top plate 201; the drainage groove 203 is arranged at the side position of the hand washing position 100 and is used for exposing the top plate 201 after being contracted for drainage; the first sewage discharge pipe 204 is connected with a sewage discharge pipe 208, and is used for discharging sewage led in by the sewage discharge pipe 208 to a sewage discharge area; the second sewage draining pipeline 205 is arranged at the inner position of the tail end of the cleaning tank 104 at the left side of the hand washing position 100 and is used for draining sewage to a sewage draining area; the first electric valve 206 is arranged at the position where the drain pipe 208 is connected with the first drain pipe 204 and is used for opening and closing the first drain pipe 204; the second electric valve 207 is arranged at the position of the second sewage draining pipeline 205 and is used for opening and closing the second sewage draining pipeline 205; the drainage pipe 208 is arranged at the inner position of the tail end of the cleaning groove 104 at the right side of the hand washing position 100 and is connected with the first drainage pipeline 204; the filter disc 209 is arranged in the middle of the water discharge pipe 208 and used for providing solid-liquid separation; the decontamination telescopic mechanism 210 is arranged at the inner position of the side of the drain pipe 208 where the filter disc 209 is located, is connected with the decontamination push plate 211 and is used for driving the connected decontamination push plate 211 to stretch; the decontamination push plate 211 is arranged on the side wall of the drain pipe 208 where the filter disc 209 is located, and is used for pushing the solid residue on the filter disc 209 to the inside of the residue channel 212; the residue channel 212 is arranged at the side position of the water discharge pipe 208, is connected with the garbage crushing device 213 and is used for guiding the solid residues into the garbage crushing device 213; the residue storage bin 214 is connected with the garbage crushing device 213 and is used for storing residues crushed by the garbage crushing device 213; the water retaining telescoping mechanism 215 is arranged at the inner position outside the hand washing position 100, is connected with the water retaining plate 216 and is used for driving the connected water retaining plate 216 to telescope; the water baffle 216 is disposed at an outer side of the hand washing station 100 and is extended to form a water blocking groove.
The recognition device 3 comprises an infrared sensor 30, a water flow sensor 31 and an ultrasonic sensor 32, wherein the infrared sensor is arranged on the inner wall of the hand washing position 100, corresponds to the clean water outlet and is used for acquiring human body recognition information; the water flow sensor 31 is arranged at the inner position of a water supply pipeline connected with the clean water outlet and used for acquiring water flow information of the clean water outlet; the ultrasonic sensor 32 is provided at a lateral position of the cleaning brush plate 106, and acquires obstacle identification information of a lateral linear distance of the cleaning brush plate 106.
The server 4 is disposed at a placement position planned by a public service management department, and the server 4 includes:
the wireless module 40 is used for being respectively connected with the switch door body 101, the cleaning water outlet 102, the cleaning door body 103, the cleaning mechanism 105, the first pushing mechanism 107, the second pushing mechanism 109, the disinfection sprayer 111, the cleaning and drying opening 113, the groove telescoping mechanism 200, the first electric valve 206, the second electric valve 207, the decontamination telescoping mechanism 210, the garbage crushing equipment 213, the infrared sensor 30, the water flow sensor 31, the ultrasonic sensor 32, external equipment of a public service management department and network wireless.
And the human body recognition module 41 is used for controlling the infrared sensor to be started or closed.
And the water outlet switch module 42 is used for controlling the switch door body 101 to stretch and contract.
And an information analysis module 43 for processing and analyzing the information according to the specified information.
And the clean water outlet module 44 is used for controlling the clean water outlet 102 to be opened or closed.
And the groove telescoping module 45 is used for controlling the groove telescoping mechanism 200 to drive the top plate 201 to telescope.
And the cleaning switch module 46 is used for controlling the cleaning door body 103 to stretch and contract.
And a cleaning driving module 47 for controlling the cleaning mechanism 105 to drive the cleaning brush plate 106 to perform a set operation.
The first pushing module 48 is configured to control the first pushing mechanism 107 to drive the first pushing brush plate 108 to stretch and retract.
A first valve module 49 for controlling the opening and closing of the first electric valve 206;
the second pushing module 50 is configured to control the second pushing mechanism 109 to drive the second pushing brush plate 110 to stretch and retract;
and a second valve module 51 for controlling the opening and closing of the second electric valve 207.
As a preferred embodiment of the present invention, the server 4 further includes:
and the water flow module 52 is used for controlling the water flow sensor 31 to be started or closed.
And the flow calculating module 53 is configured to calculate depth information of the required water flow tank according to the water flow information obtained by the water flow sensor 31.
As a preferred embodiment of the present invention, the server 4 further includes:
and the ultrasonic module 54 is used for controlling the ultrasonic sensor 32 to be started or closed.
As a preferred embodiment of the present invention, the server 4 further includes:
and the decontamination control module 55 is used for controlling the decontamination telescopic mechanism 210 to drive the decontamination push plate 211 to stretch and retract.
And the garbage crushing module 56 is used for controlling the garbage crushing device 213 to start or stop.
As a preferred embodiment of the present invention, the server 4 further includes:
and the disinfection control module 57 is used for controlling the disinfection sprayer 111 to be started or closed.
And the cleaning and drying module 58 is used for controlling the cleaning and drying port 113 to be started or closed.
And the water blocking control module 59 is used for controlling the water blocking telescopic mechanism 215 to drive the water blocking plate 216 to extend and retract.
The cleaning mechanism 105 comprises a cleaning motor and a cleaning roller, wherein the cleaning motor is arranged below the cleaning brush plate 106 and connected with the cleaning roller for driving the cleaning roller to run; the cleaning roller is arranged below the cleaning brush plate 106 and used for driving the cleaning brush plate 106 to move; the opening and closing door body 101 and the cleaning door body 103 are electric retractable rolling doors; the first pushing mechanism 107 and the second pushing mechanism 109 both comprise a rope telescopic motor and a traction rope, the rope telescopic motor is arranged at the front end of the cleaning groove 104 and is connected with the traction rope, and the traction rope for driving connection is telescopic to drive the pushing brush plate to move in the cleaning groove 104 in a telescopic manner; the haulage rope is connected with rope telescopic band your family and propelling movement brush board respectively.
A battery for supplying electric power is provided inside the cleaning brush plate 106; the groove telescopic mechanism 200 comprises a first hydraulic pump and a hydraulic rod, wherein the first hydraulic pump is connected with the hydraulic rod and is used for driving the connected hydraulic rod to stretch; the hydraulic rod is respectively connected with the first hydraulic pump and the top plate 201 and is used for driving the top plate 201 connected to extend and retract; the silica gel layer 202 is memory silica gel, has scalable characteristic, and when roof 201 stretches out completely, roof 201, silica gel layer 202 and wash hand position 100 upper surface keep the same horizontal plane.
The first electric valve 206 and the second electric valve 207 are both electric switch valves; the dirt removing telescopic mechanism 210 comprises a telescopic motor and a telescopic rod, wherein the telescopic motor is connected with the telescopic rod and is used for driving the connected telescopic rod to stretch; the telescopic link is connected with flexible motor and scrubbing push pedal 211 respectively for the scrubbing push pedal 211 that the drive is connected is followed the propelling movement of drain pipe 208 one side inner wall to the residue passageway 212 position of drain pipe 208 opposite side inner wall connection.
Wherein the garbage crushing device 213 is connected with the residue storage bin 214 through a slag crushing channel; the water retaining telescopic mechanism 215 comprises a second hydraulic pump and a hydraulic column, wherein the second hydraulic pump is connected with a hydraulic rod and is used for driving the connected hydraulic column to stretch; the hydraulic column is respectively connected with the second hydraulic pump and the water baffle 216 and used for driving the connected water baffle 216 to stretch.
It should be understood that, in the fourth embodiment, the specific implementation process of each module described above may correspond to the description of the above method embodiments (the first to the third embodiments), and is not described in detail here.
The system provided in the fourth embodiment is only illustrated by dividing the functional modules, and in practical applications, the above-mentioned functions may be distributed by different functional modules according to needs, that is, the internal structure of the system is divided into different functional modules to complete all or part of the functions described above.
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 (9)

1. An intelligent public service method based on big data processing analysis is characterized by comprising the following steps:
s1, controlling an infrared sensor arranged at the inner position of the wall of the hand washing station to start to acquire human body identification information in real time and controlling a switch door body arranged at the inner position of the wall of the hand washing sink to be completely contracted to completely expose a clean water outlet;
s2, if a human body exists at the front end of the cleaning water outlet according to the human body identification information, controlling the corresponding cleaning water outlet to be opened to discharge cleaning water and controlling a top plate which is arranged at the inner position of the corresponding hand washing position and is driven by a groove telescopic mechanism to be connected to drive a silica gel layer to contract downwards for a preset distance to form a water flow groove;
s3, if the human body in the hand washing position leaves according to the human body identification information, controlling the cleaning water outlet which is correspondingly opened to be closed and controlling the top plate which is correspondingly connected with the groove telescopic mechanism in the hand washing position to drive the silica gel layer to completely extend out of the laid hand washing position;
s4, controlling the cleaning door bodies arranged at the inner positions of the walls at the two sides of the hand washing position to completely contract to open the cleaning grooves and controlling the cleaning mechanism stored at the inner position of the cleaning groove at the left side of the hand washing position to drive the connected cleaning brush plate to move to the inner part of the cleaning groove at the right side of the hand washing position;
s5, controlling a first pushing mechanism arranged at the inner position of the cleaning groove at the right side of the hand washing position to drive a connected first pushing brush plate to move from the front end of the cleaning groove to the tail end position of the cleaning groove, and controlling a first electric valve arranged at the inner position of the tail end of the cleaning groove at the right side of the hand washing position to be opened;
s6, controlling the cleaning brush plate connected with the cleaning mechanism to move back to the cleaning groove on the left side of the hand washing position and controlling a second pushing mechanism arranged in the cleaning groove on the left side of the hand washing position to drive a second pushing brush plate connected with the cleaning mechanism to move from the front end of the cleaning groove to the tail end of the cleaning groove;
s7, controlling a second electric valve arranged at the inner position of the tail end of the cleaning groove at the left side of the hand washing position to open and controlling a cleaning door body arranged at the inner end positions of the walls at the two sides of the hand washing position to completely extend out to close the cleaning groove;
in S2, the method further comprises the steps of:
s20, after the clean water outlet is opened, controlling a water flow sensor arranged in the clean water outlet to acquire water flow information in real time and calculating the depth information of the water flow groove according to the water flow information;
s21, controlling the distance of the top plate which is arranged at the inner position of the corresponding hand washing position and is driven and connected by the groove telescoping mechanism according to the calculated depth information of the water flow groove to drive the silica gel layer to contract downwards to form the water flow groove.
2. The intelligent public service method based on big data processing analysis according to claim 1, wherein in S4, the method further comprises the following steps:
s40, controlling an ultrasonic sensor arranged at the front end of the cleaning brush plate to start to acquire barrier identification information in real time and analyzing whether a barrier exists at the position from the front end of the cleaning brush plate to a cleaning groove at the right side of the hand washing position or not according to the barrier identification information;
and S41, if so, canceling to control the cleaning brush plate which is in driving connection with the cleaning mechanism which is in straight line correspondence with the obstacle to move.
3. The intelligent public service method based on big data processing analysis according to claim 1, further comprising the steps of:
s8, after the first electric valve is opened, controlling a decontamination push plate which is arranged at the inner position of the side of a drain pipe connected with the first electric valve and is in driving connection with a decontamination telescopic mechanism to extend out every first preset time so as to push the solid residue at the position of a filter disc of the drain pipe to a residue channel;
and S9, controlling the garbage crushing equipment arranged in the residue channel to start crushing the solid residues falling from the residue channel and discharging the crushed solid residues to the residue storage bin at intervals of second preset time.
4. The intelligent public service method based on big data processing analysis according to claim 1, wherein in S4, the method further comprises the following steps:
s42, controlling a disinfection sprayer arranged at the top end inside the cleaning groove to start spraying disinfectant to the outer side of the cleaning brush plate and controlling a cleaning drying port arranged at the bottom end of the cleaning brush plate to start to enter a dewatering state;
and S43, controlling a water baffle plate which is arranged at the inner position outside the hand washing station and is driven and connected by a water baffle telescopic mechanism to extend out to form a water blocking groove.
5. An intelligent public service system based on big data processing analysis, which uses the intelligent public service method based on big data processing analysis of any one of claims 1-4, and comprises a cleaning device, a water tank device, a recognition device and a server, and is characterized in that:
the cleaning device comprises a hand washing position, a door opening and closing body, a cleaning water outlet, a cleaning door body, a cleaning groove, a cleaning mechanism, a cleaning brush plate, a first pushing mechanism, a first pushing brush plate, a second pushing mechanism, a second pushing brush plate, a disinfection sprayer, a disinfectant storage bin and a cleaning and drying opening, wherein the hand washing position is arranged at a public service place; the switch door body is arranged at the inner side position of the hand washing position and used for exposing the clean water outlet after being completely contracted; the cleaning water outlet is arranged at the inner side position of the hand washing position and used for providing cleaning water; the cleaning door bodies are arranged at the inner positions of the walls at the two sides of the hand washing position and used for opening and closing the cleaning groove; the cleaning grooves are arranged in the inner positions of the walls on the two sides of the hand washing position and used for storing the cleaning brush plates; the cleaning mechanism is arranged at the position below the cleaning brush plate and used for driving the cleaning brush plate to move in the hand washing area; the cleaning brush plate is stored in the cleaning groove and used for cleaning solid residues and water stains in the hand washing position area; the first pushing mechanism is arranged at the front end of the cleaning groove at the right side of the hand washing position, is connected with the first pushing brush plate and is used for driving the connected first pushing brush plate to extend out to the tail end of the cleaning groove; the first pushing brush plate is arranged at the front end of the cleaning groove at the right side of the hand washing position and used for pushing the solid residues and the sewage of the cleaning brush plate in the cleaning groove to the inside of a drainage pipe at the tail end of the cleaning groove; the second pushing mechanism is arranged at the front end of the cleaning groove on the left side of the hand washing position, is connected with the second pushing brush plate and is used for driving the connected second pushing brush plate to extend out to the tail end of the cleaning groove; the second pushing brush plate is arranged at the front position of the cleaning groove at the left side of the hand washing position and used for pushing the solid residues and the sewage of the cleaning brush plate in the cleaning groove to the interior of a second sewage discharge pipeline at the tail end of the cleaning groove; the disinfectant sprayer is arranged at the top end inside the cleaning groove, is connected with the disinfectant storage bin and is used for spraying disinfectant to the position outside the cleaning brush plate; the disinfectant storage bin is arranged at the inner position of the top end of the cleaning groove and used for storing disinfectant; the cleaning and drying port is arranged at the bottom end of the cleaning brush plate and is used for drying a hand washing site area at the bottom end of the cleaning brush plate;
the water tank device comprises a groove telescopic mechanism, a top plate, a silica gel layer, a drainage tank, a first drainage pipeline, a second drainage pipeline, a first electric valve, a second electric valve, a drainage pipe, a filter disc, a decontamination telescopic mechanism, a decontamination push plate, a residue channel, garbage crushing equipment, a residue storage bin, a water retaining telescopic mechanism and a water retaining plate, wherein the groove telescopic mechanism is arranged at the inner position of the hand washing position, is connected with the top plate, corresponds to the cleaning water outlet and is used for driving the connected top plate to stretch; the top plate is arranged at a hand washing position corresponding to the cleaning water outlet, is connected with the silica gel layer and is used for driving the silica gel layer to contract to form a water flow groove; the silica gel layer is respectively connected with the hand washing position and the top plate and is used for stretching and shrinking along with the connected top plate; the drainage groove is arranged at the side position of the hand washing position and used for exposing the top plate after the top plate is contracted for drainage; the first sewage discharge pipeline is connected with the water discharge pipe and is used for discharging sewage led in by the water discharge pipe to a sewage discharge area; the second sewage discharge pipeline is arranged at the inner position of the tail end of the cleaning tank on the left side of the hand washing position and is used for discharging sewage to a sewage discharge area; the first electric valve is arranged at the connecting position of the drain pipe and the first sewage discharge pipeline and used for opening and closing the first sewage discharge pipeline; the second electric valve is arranged at the position of the second sewage discharge pipeline and used for opening and closing the second sewage discharge pipeline; the drain pipe is arranged in the inner position of the tail end of the right cleaning groove at the hand washing position and is connected with the first drain pipeline; the filter disc is arranged in the middle of the drain pipe and used for providing solid-liquid separation; the decontamination telescoping mechanism is arranged at the inner position of the side of the drain pipe where the filter disc is located, is connected with the decontamination push plate and is used for driving the connected decontamination push plate to telescope; the decontamination push plate is arranged on the side wall of the drain pipe where the filter disc is positioned and used for pushing the solid residues at the position of the filter disc to the inside of the residue channel; the residue channel is arranged at the side position of the drain pipe, is connected with the garbage crushing equipment and is used for guiding solid residues into the garbage crushing equipment; the residue storage bin is connected with the garbage crushing equipment and is used for storing residues crushed by the garbage crushing equipment; the water retaining telescopic mechanism is arranged at the inner position outside the hand washing station, is connected with the water retaining plate and is used for driving the connected water retaining plate to stretch; the water baffle is arranged at the outer side of the hand washing position and is used for forming a water blocking groove after extending out;
the identification device comprises an infrared sensor, a water flow sensor and an ultrasonic sensor, wherein the infrared sensor is arranged on the wall position on the inner side of the hand washing position, corresponds to the clean water outlet and is used for acquiring human body identification information; the water flow sensor is arranged at the inner position of a water supply pipeline connected with the clean water outlet and used for acquiring water flow information of the clean water outlet; the ultrasonic sensor is arranged at the side position of the cleaning brush plate and used for acquiring obstacle identification information of the side linear distance of the cleaning brush plate;
the server is arranged at a placement position planned by a public service management department, and comprises:
the wireless module is used for being wirelessly connected with a switch door body, a cleaning water outlet, a cleaning door body, a cleaning mechanism, a first pushing mechanism, a second pushing mechanism, a disinfection sprayer, a cleaning and drying opening, a groove telescopic mechanism, a first electric valve, a second electric valve, a decontamination telescopic mechanism, garbage crushing equipment, an infrared inductor, a water flow sensor, an ultrasonic sensor, external equipment of a public service management department and a network respectively;
the human body recognition module is used for controlling the infrared sensor to be started or closed;
the water outlet switch module is used for controlling the switch door body to stretch;
the information analysis module is used for processing and analyzing the information according to the specified information;
the cleaning water outlet module is used for controlling the opening or closing of the cleaning water outlet;
the groove telescopic module is used for controlling the groove telescopic mechanism to drive the top plate to stretch;
the cleaning switch module is used for controlling the cleaning door body to stretch and retract;
the cleaning driving module is used for controlling the cleaning mechanism to drive the cleaning brush plate to execute set operation;
the first pushing module is used for controlling the first pushing mechanism to drive the first pushing brush plate to stretch;
the first valve module is used for controlling the first electric valve to be switched;
the second pushing module is used for controlling the second pushing mechanism to drive the second pushing brush plate to stretch;
and the second valve module is used for controlling the second electric valve to be switched on and off.
6. The intelligent public service system based on big data processing analysis according to claim 5, wherein the server further comprises:
the water flow module is used for controlling the water flow sensor to be started or closed;
and the flow calculation module is used for calculating the depth information of the required water flow groove according to the water flow information acquired by the water flow sensor.
7. The intelligent public service system based on big data processing analysis according to claim 5, wherein the server further comprises:
and the ultrasonic module is used for controlling the ultrasonic sensor to be started or closed.
8. The intelligent public service system based on big data processing analysis according to claim 5, wherein the server further comprises:
the decontamination control module is used for controlling the decontamination telescopic mechanism to drive the decontamination push plate to stretch;
and the garbage crushing module is used for controlling the starting or closing of the garbage crushing equipment.
9. The intelligent public service system based on big data processing analysis according to claim 5, wherein the server further comprises:
the disinfection control module is used for controlling the disinfection sprayer to be started or closed;
the cleaning and drying module is used for controlling the cleaning and drying opening to be started or closed;
and the water blocking control module is used for controlling the water blocking telescopic mechanism to drive the water blocking plate to stretch.
CN201910791586.0A 2019-08-26 2019-08-26 Intelligent public service method and system based on big data processing analysis Active CN110485516B (en)

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