CN114973521A

CN114973521A - Wisdom cloud lavatory

Info

Publication number: CN114973521A
Application number: CN202210566378.2A
Authority: CN
Inventors: 黄卫家; 余中伟; 杨华
Original assignee: Jiajingjie Environmental Technology Co ltd
Current assignee: Jiajingjie Environmental Technology Co ltd
Priority date: 2022-05-23
Filing date: 2022-05-23
Publication date: 2022-08-30

Abstract

The application discloses a smart cloud toilet, which comprises a smart toilet and a cloud server in communication connection with the smart toilet; the intelligent toilet comprises a toilet public area structure, a plurality of toilet seat area structures, a center console area structure and a plurality of equipment room area structures; the intelligent toilet is used for collecting excrement, recycling water and preparing liquid fertilizer, and is also used for acquiring working parameters and sending the working parameters to the cloud server; the cloud server is used for receiving the working parameters sent by the intelligent toilet and processing the working parameters according to a preset data processing strategy to obtain a processing result. The working parameter of uploading wisdom lavatory to cloud ware has been realized fast, has improved the service parameter of public latrine and has acquireed efficiency, still carries out liquid fertilizer preparation with the effective recycle of excrement to the excrement that collects.

Description

Wisdom cloud lavatory

Technical Field

The application relates to the technical field of Internet of things equipment, in particular to a smart cloud toilet.

Background

Public toilets are now widely used in many public places. The existing public toilets are generally arranged in scenic spots, parks, places near bus stations and the like, and excrement such as excrement and urine is discharged into a sewage discharge pipe or a septic tank when the public toilets are laid. Therefore, the construction of the place for laying soil and the construction of a sewage pipe network, a power grid and the like are required before the current public toilet is laid, so that the current public toilet is low in construction efficiency, high in cost and large in workload.

Wherein, the mode of disposing of excrement among the current public latrine is that directly discharge the blow off pipe or discharge regularly clear up collection manure pit behind the collection manure pit, this has just led to present public latrine to the low effective utilization of excrement. And current public latrine is all non-networking uses, and the specific in service behavior (such as people flow, excrement collection volume isoparametric) of public latrine all need the artifical scene to look over the data that the sensor gathered, leads to the service parameter of public latrine to obtain efficiency also extremely low.

Content of application

The embodiment of the application provides a smart cloud toilet, and aims to solve the problems that in the prior art, the effective utilization rate of a common public toilet to excrement is low, and the use parameter acquisition efficiency of the public toilet is extremely low.

The embodiment of the application provides a smart cloud toilet, which comprises a smart toilet and a cloud server in communication connection with the smart toilet; the intelligent toilet comprises a toilet public area structure, a plurality of toilet seat area structures, a center console area structure and a plurality of equipment room area structures;

the plurality of toilet room area structures are connected with the toilet public area structure, the center console area structure is connected with the toilet public area structure, and the plurality of inter-equipment area structures are connected with any one or more of the plurality of toilet room area structures, the toilet public area structure and the center console area structure;

the intelligent toilet is used for collecting excrement, recycling water and preparing liquid fertilizer, and is also used for acquiring working parameters and sending the working parameters to the cloud server;

the cloud server is used for receiving the working parameters sent by the intelligent toilet and processing the working parameters according to a preset data processing strategy to obtain a processing result.

In one possible design, the lavatory public area structure comprises: the intelligent soap dispenser comprises a public area structure body, and an intelligent soap dispenser, an intelligent paper wiping machine, a passenger flow meter, a display screen and an intelligent air conditioner which are arranged in the public area structure body.

In one possible design, the lavatory area structure comprises: the toilet room area structure body and a toilet room door body which is matched with the toilet room area structure body and can rotate around a door shaft on the toilet room area structure body; the intelligent toilet seat comprises a toilet seat area structure body, and is characterized by also comprising an infrared sensor, a toilet seat indicator lamp, an induction door lock, an inside door opening inductor, an outside door opening inductor, a laser sensor, an alarm button, an environment sensor, a smoke inductor and an intelligent paper winder which are arranged on the toilet seat area structure body; the electric door closer is arranged at the top end of the toilet area structure body and is connected with the top end of the toilet door body; wherein, be provided with the lavatory position structure in the regional structure of lavatory position.

In one possible design, the center console area structure comprises a liquid fertilizer treatment system for collecting excrement and preparing liquid fertilizer; the liquid fertilizer treatment system comprises a treatment tank and a finished product tank connected with the treatment tank through at least one connecting pipeline;

an inlet pipeline is arranged on one side of the top end of the treatment tank, and a first liquid level switch is arranged on the inlet pipeline; the treatment tank is also internally provided with a plurality of sensors and at least one first submersible pump;

an outlet pipeline is arranged on one side of the top end of the finished product pool, and a second liquid level switch is arranged on the outlet pipeline; the finished product pool is also provided with at least one sensor and at least one second submersible pump.

In one possible design, the plurality of sensors arranged in the treatment tank comprise an ammonia nitrogen sensor for detecting the ammonia nitrogen content and the oxidation-reduction potential in the treatment tank, a gas sensor for detecting the carbon dioxide content, the methane content and the nitrogen dioxide content in the treatment tank, an ultrasonic liquid level meter for detecting the liquid level of liquid fertilizer in the treatment tank, and a water quality sensor for detecting the chemical oxygen demand and the total organic carbon content in the treatment tank, wherein the ultrasonic liquid level meter is connected with the first liquid level switch; the finished product pool is provided with at least one sensor, the at least one sensor comprises a first throw-in type liquid level instrument used for detecting the liquid level in the finished product pool, and the first throw-in type liquid level instrument is connected with the second liquid level switch.

In one possible design, the inter-equipment area structure comprises a water circulation system and a master control box for recycling water and flushing the toilet bowl within the toilet bowl area structure; the water circulation system comprises a toilet flushing box, a hand washing water recycling box, a bacteria liquid box and a disinfectant liquid box; the toilet flushing device comprises a toilet flushing box, a hand washing water recycling box, a first pipeline and a second pipeline, wherein the hand washing water recycling box is connected with the toilet flushing box through the first pipeline, and a self-sucking pump is arranged on the first pipeline; the bacteria liquid box is connected with the toilet flushing box through a second pipeline, a first diaphragm pump and a three-way electromagnetic valve are sequentially arranged on the second pipeline, the inlet end of the three-way electromagnetic valve is connected with the outlet end of the first diaphragm pump, the first outlet end of the three-way electromagnetic valve is connected with the toilet flushing box, and the second outlet end of the three-way electromagnetic valve is connected with the hand washing water recycling box; the water inlet of the toilet flushing box is also connected with a water inlet pipe, the water outlet of the toilet flushing box is also connected with one end of a water outlet pipeline, and the other end of the water outlet pipeline is connected with a toilet structure in the toilet space area structure; the disinfectant tank is connected with a toilet structure in the toilet area structure through a third pipeline, and a second diaphragm pump is further arranged on the third pipeline.

In one possible design, the water inlet pipe is also sequentially provided with a water meter and a water inlet pipe electromagnetic valve; a second throw-in type liquid level instrument is arranged in the toilet flushing box, a third throw-in type liquid level instrument is arranged in the hand washing water recycling box, a fourth throw-in type liquid level instrument is arranged in the bacteria liquid box, and a fifth throw-in type liquid level instrument is arranged in the disinfectant liquid box; the water meter, the water inlet pipe electromagnetic valve, the second throw-in type liquid level instrument, the third throw-in type liquid level instrument, the fourth throw-in type liquid level instrument and the fifth throw-in type liquid level instrument are all connected with the master control box.

In one possible design, a main control board, a power supply module and a communication module are arranged in the main control box; the power module and the communication module are connected with the main control board.

In one possible design, the top end of the intelligent toilet is further provided with a photovoltaic cell panel, and the photovoltaic cell panel is used for converting solar energy into electric energy for the intelligent toilet.

In a possible design, the intelligent toilet further comprises an intelligent vending machine structure and/or a shared charging treasure rental structure, and the intelligent vending machine structure and/or the shared charging treasure rental structure are connected with the toilet public area structure

The embodiment of the application provides a smart cloud toilet, which comprises a smart toilet and a cloud server in communication connection with the smart toilet; the intelligent toilet comprises a toilet public area structure, a plurality of toilet seat area structures, a center console area structure and a plurality of equipment room area structures; the intelligent toilet is used for collecting excrement, recycling water and preparing liquid fertilizer, and is also used for acquiring working parameters and sending the working parameters to the cloud server; the cloud server is used for receiving the working parameters sent by the intelligent toilet and processing the working parameters according to a preset data processing strategy to obtain a processing result. The working parameter of uploading wisdom lavatory to cloud ware has been realized fast, has improved the service parameter of public latrine and has acquireed efficiency, still carries out liquid fertilizer preparation with the effective recycle of excrement to the excrement that collects.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic structural block diagram of a smart cloud toilet provided in an embodiment of the present application;

fig. 2 is a schematic structural block diagram of a smart toilet in a smart cloud toilet provided in an embodiment of the present application;

fig. 3 is a schematic structural diagram of a smart toilet in a smart cloud toilet provided in an embodiment of the present application after a housing is removed;

FIG. 4 is a schematic block diagram of a public area structure of a smart cloud toilet according to an embodiment of the present disclosure;

fig. 5a is a schematic structural diagram of a public area structure and a toilet space area structure of a smart cloud toilet according to an embodiment of the present application;

fig. 5b is a schematic structural block diagram of a toilet space area structure in a smart cloud toilet provided by the embodiment of the application;

FIG. 6a is a schematic view of another structure of a smart cloud toilet according to an embodiment of the present disclosure;

FIG. 6b is a schematic structural diagram of a center console area structure of a smart cloud toilet according to an embodiment of the present disclosure;

FIG. 7a is a schematic view of another structure of a smart cloud toilet according to an embodiment of the present application;

FIG. 7b is a schematic block diagram of a smart cloud toilet center equipment room zone structure according to an embodiment of the present application;

FIG. 7c is a schematic block diagram of a main control box in a smart cloud toilet according to an embodiment of the present disclosure;

fig. 7d is another schematic structural block diagram of the structure of the smart cloud toilet equipment room area provided in the embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in the specification of the present application and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items.

Referring to fig. 1 to 2, fig. 1 is a schematic structural block diagram of a smart cloud toilet according to an embodiment of the present disclosure;

fig. 2 is a schematic structural block diagram of a smart toilet in a smart cloud toilet provided in an embodiment of the present application. As shown in fig. 1 and fig. 2, the embodiment of the present application provides a smart cloud toilet 1, which includes a smart toilet 10 and a cloud server 20; the intelligent lavatory 10 includes a lavatory public area structure 100, a plurality of lavatory area structures 200, a center console area structure 300, and a plurality of inter-equipment area structures 400;

the plurality of lavatory area structures 200 are connected to the lavatory public area structure 100, the center console area structure 300 is connected to the lavatory public area structure 100, and the plurality of inter-equipment area structures 400 are connected to any one or more of the plurality of lavatory area structures 200, the lavatory public area structure 100, and the center console area structure 300;

the intelligent toilet 10 is used for collecting excrement, recycling water and preparing liquid fertilizer, and is also used for acquiring working parameters and sending the working parameters to the cloud server 20;

the cloud server 20 is configured to receive the working parameters sent by the smart toilet 10 and process the working parameters according to a preset data processing policy to obtain a processing result.

In the present embodiment, the smart cloud toilet 1 includes at least one smart toilet 10 and at least one cloud server 20. In the present application, the smart cloud toilet 1 includes a smart toilet 10 and a cloud server 20 as an example, but in the implementation, one cloud server 20 may be communicatively connected to a plurality of smart toilets 10, and is not limited to the above-mentioned example of a smart toilet 10.

Wherein, each wisdom lavatory 10 can be according to the modularization production, specifically carries out the modularization equipment after regional production with lavatory public regional structure 100, the regional structure 200 of a plurality of lavatory position, the regional structure 300 of well accuse platform and the regional structure 400 of a plurality of equipment room, need not large-scale soil moving and sewage pipe network construction when on-the-spot installation wisdom lavatory 10, has improved the efficiency of deploying wisdom lavatory 10, has reduced the degree of difficulty of deploying wisdom lavatory 10. The intelligent lavatory 10 may be deployed in urban public places (e.g., near some bus stops), scenic spots, and the like. When the intelligent lavatory 10 is deployed and the user uses it, he or she first enters the public toilet area structure 100 and then selects an idle toilet area structure 200 and enters the toilet. And then the toilet can return to the public toilet area structure 100 again for hand washing, sterilization, hand wiping and the like, so that the whole toilet process is completed.

During the toilet process, the user does not enter the center console area structure 300 and the equipment room area structure 400. The center console area structure 300 and the inter-equipment area structure 400 are areas that can be accessed by the operation and maintenance personnel of the intelligent toilet 10, for example, excrement of a user such as a toilet is collected to the center console area structure 300 after flowing through a pipeline, and then liquid fertilizer is collected and prepared in the center console area structure 300, so that liquid fertilizer which can be recycled is finally obtained. The inter-equipment area structure 400 is a deployment area of the electric control equipment and a part of the water treatment system, and the whole intelligent toilet 10 is mainly maintained by power through the inter-equipment area structure 400.

In specific implementation, a plurality of sensors may be further disposed in the public toilet area structure 100, the toilet space area structure 200, the center console area structure 300, and the inter-equipment area structure 400 of the smart toilet 10, and the collected working parameters of the smart toilet 10 are uploaded to the cloud server 20, and the cloud server 20 performs processing according to a preset data processing policy based on the working parameters sent by the smart toilet 10 to obtain a processing result.

In order to implement the functions of traffic statistics, intelligent large screen display data billboard, user hand washing and wiping in the lavatory public area structure 100, in one embodiment, as shown in fig. 2 to 4, the lavatory public area structure 100 includes: the intelligent soap dispenser comprises a public area structural body 110, and an intelligent soap dispenser 120, an intelligent paper wiper 130, a passenger flow meter 140, a display screen 150 and an intelligent air conditioner 160 which are arranged in the public area structural body 110.

In this embodiment, the smart soap dispenser 120, the smart paper wiper 130, the passenger flow meter 140, the display 150, and the smart air conditioner 160 are all connected to a main control box (or a sub-control box) in the inter-equipment area structure 400. And the intelligent soap dispenser 120, the intelligent paper wiper 130, the passenger flow meter 140, the display screen 150 and the intelligent air conditioner 160 can be powered through the main control box.

Specifically, a public area entrance is formed in the public area structure 110 and used for arranging an automatic door or a wind barrier, a display screen fixing frame is arranged in the public area structure 110, and the display screen 150 is fixedly arranged on the display screen fixing frame. Hand washing ponds are arranged at two ends of the display screen fixing frame, a hand washing cabinet is fixedly arranged above each hand washing pond, and the intelligent liquid soap dispenser 120 and the intelligent hand paper wiping machine 130 are arranged in each hand washing cabinet; the top end in the public area structure 110 is also provided with a passenger flow meter 140 and is aligned with the public area entrance for counting the passenger flow; the top end inside the common zone structure 110 is also provided with an intelligent air conditioner 160 for adjusting the indoor temperature.

It can be seen that after a user enters the public area structure 110 through the public area entrance, any one of the toilet space area structures 200 in the idle state can be selected for use. At this time, the customer flow meter 140 senses the user's entrance and counts a customer flow value added to the historical statistics. After the user finishes using the toilet, the user can wash hands in the hand washing basin, before washing hands, the hands can be placed below the intelligent soap dispenser 120, soap is automatically provided after the intelligent soap dispenser 120 senses the hands of the user, and the soap flows to the hands of the user (the volume of soap flowing out each time by the intelligent soap dispenser 120 is fixed, and the volume of soap can be set in advance). After the user washes hands with soap solution and water, the hands are placed below the intelligent paper wiping machine 130, and the intelligent paper wiping machine 130 discharges paper according to a preset first paper discharge amount so as to wipe the hands of the user. Moreover, the user can also view various data or contents displayed on the display screen 150, for example, the use condition of each toilet structure in the toilet area structure 200, the system time, the current day weather information, the parameter values of each sensor, etc. can be displayed on the display screen 150.

In order to implement the functions of toilet idle status detection, automatic door opening and closing induction, automatic toilet flushing, smoke concentration induction, dangerous situation alarm, automatic paper discharge and the like in the toilet area structure 200, in an embodiment, as shown in fig. 2, 3, 5a and 5b, the toilet area structure 200 includes:

the toilet space comprises a toilet space area structural body 210 and a toilet space door body 220 which is matched with the toilet space area structural body 210 and can rotate around a door shaft on the toilet space area structural body 210; the toilet seat comprises an infrared sensor 230, a toilet seat indicator light 240, an induction door lock 250, an inside door opening inductor 261, an outside door opening inductor 262, a laser sensor 271, an alarm button 272, an environment sensor 273, a smoke inductor 274 and an intelligent winder 280, wherein the infrared sensor 230, the toilet seat indicator light 240, the induction door lock 250, the inside door opening inductor 261, the outside door opening inductor 262, the laser sensor 271, the alarm button 272, the environment sensor 273, the smoke inductor 274 and the intelligent winder 280 are arranged on the toilet seat area structural body 210; the toilet seat further comprises an electric door closer 290 which is arranged at the top end of the toilet seat area structural body 210 and is connected with the top end of the toilet seat door body 220; wherein, be provided with lavatory area structure 211 in the lavatory district structural body 210.

In this embodiment, in order to avoid the user from touching the toilet room door 220 with hands to perform the door opening operation, an inside door opening sensor 261 may be disposed on the inner wall of the toilet room area structure 210, and an outside door opening sensor 262 may be disposed on the outer wall of the toilet room area structure 210; the inside door opening sensor 261 and the outside door opening sensor 262 are arranged opposite to each other, and the outside door opening sensor 262 is visible on the outer wall before entering the toilet space area structure 210, and the inside door opening sensor 261 is visible on the inner wall after entering the toilet space area structure 210. The inside door opening sensor 261 and the outside door opening sensor 262 are connected to the sensing door lock 250, and the inside door opening sensor 261 and the outside door opening sensor 262 are connected to the electric door closer 290. The whole toileting process can refer to the following detailed process:

11) the process of entering the toilet space area structure 210 is as follows: when the outside door-opening sensor 262 senses that the distance between the human hand and the outside door-opening sensor is smaller than a preset first distance threshold (for example, set to 5cm), it indicates that a user outside the toilet room area structural body 210 needs to enter the toilet room area structural body 210, at this time, the outside door-opening sensor 262 sends a door-opening signal to the sensing door lock 250 and the electric door closer 290, at this time, the door bolt of the sensing door lock 250 is in a retraction state (namely, is not inserted into the lock hole on the toilet room door body 220 corresponding to the sensing door lock 250), and the electric door closer 290 drives to pull open the toilet room door body 220, so that the toilet room door body 220 rotates around the door shaft to be in a door-opening state, and the user walks into the toilet room area structural body 210 from the public area structural body 110. Then, after a preset first waiting time (for example, 5s), the master control box sends an automatic door closing signal to the electric door closer 290, and then the electric door closer 290 drives the toilet door 220 to be closed. When the door shaft of the toilet door body 220 rotates to be in a door closing state and the sensing door lock 250 senses that the lock hole of the toilet door body 220 is in place again (namely, when the sensing door lock 250 detects that the distance between a shelter in front of the sensing door lock 250 and the sensing door lock is reduced from dozens of centimeters to several centimeters), the door bolt of the sensing door lock 250 extends out and is inserted into the lock hole of the toilet door body 220 to complete the automatic door closing action. When a user enters the toilet space area structural body 210, the infrared sensor 230 sends an illumination and ventilation function starting signal to the main control box when sensing that the user exists in the toilet space area structural body 210, so that a lamp tube and an exhaust fan arranged at the top end in the toilet space area structural body 210 are started, and the illumination and ventilation functions are started. And the toilet room indicating lamp 240 is red to indicate that the toilet room structure 211 in the toilet room area structural body 210 is in a state of being used by a person. In specific implementation, the toilet structure 211 in the toilet area structure 210 can be a toilet structure or a squatting pan structure to meet the use requirement of a toilet or a squatting pan. In addition, due to the adoption of an induction type door opening mode, the direct contact between a user and the toilet area structural body 210 and the toilet door body 220 is avoided, bacteria or viruses possibly existing on the toilet area structural body 210 and the toilet door body 220 can be effectively prevented from being transferred to hands due to the contact, and the infection risk of the user is reduced.

12) The process of automatically discharging the toilet paper comprises the following steps: when the user finishes toilet paper needed for toilet, the user places his hand under the intelligent winder 280, and the intelligent winder 280 discharges the toilet paper according to a preset second paper discharge amount for the user to use.

13) The automatic flushing process comprises the following steps: the laser sensor 271 is arranged on the inner wall of the toilet seat area structural body 210 and above the toilet seat structure 211, when a user opens the door and enters the toilet seat area structural body 210 to finish the toilet leaving the toilet seat area structural body 210, the laser sensor 271 is switched from a state of sensing that the toilet seat structure 211 has the user to a state of sensing that the toilet seat structure 211 has no user, and at the moment, the toilet seat structure 211 automatically discharges water to flush the toilet. Wherein the source of flushing water for the toilet structure 211 is a water circulation system 401 in an inter-equipment area structure 400.

14) The process of leaving the lavatory area structure 210: when a user needs to leave the toilet, the user places a hand near the inner side door opening sensor 261, when the inner side door opening sensor 261 senses that the distance between the hand and the hand is smaller than the first distance threshold value, the user in the toilet area structural body 210 needs to leave the toilet area structural body 210, the inner side door opening sensor 261 sends a door opening signal to the sensing door lock 250 and the electric door closer 290, the door bolt of the sensing door lock 250 is in a retraction state (namely is not inserted into the lock hole in the toilet door 220 corresponding to the sensing door lock 250) and the electric door closer 290 drives the toilet door 220 to be opened, so that the toilet door 220 rotates around the door shaft to be in an open door state, and the user can leave the toilet area structural body 210. After the first waiting time (for example, 5s), the master control box sends an automatic door closing signal to the electric door closer 290, and then the electric door closer 290 drives to close the toilet door 220. When the door shaft of the toilet door body 220 rotates to be in a door closing state and the sensing door lock 250 senses that the lock hole of the toilet door body 220 is in place again (namely, when the sensing door lock 250 detects that the distance between a shelter in front of the sensing door lock 250 and the sensing door lock is reduced from dozens of centimeters to several centimeters), the door bolt of the sensing door lock 250 extends out and is inserted into the lock hole of the toilet door body 220 to complete the automatic door closing action. At this time, when the infrared sensor 230 senses that the toilet area structure 210 has no user, a lighting and ventilation function closing signal is sent to the main control box so as to close the lamp tube and the exhaust fan arranged at the top end in the toilet area structure 210, so that the lighting and ventilation functions are closed, and the effect of saving electric energy is achieved. After the user leaves the toilet bowl area structure 210, the toilet bowl indicator 240 is colored green to indicate that the toilet bowl structure 211 in the toilet bowl area structure 210 is in an unattended state.

The alarm button 272 provided on the inner wall of the toilet space area structure 210 is a physical button for providing a user with an active alarm signal, and for example, when the user encounters a dangerous situation (such as a user's sudden illness or a sudden fire) in the toilet using process, the alarm button 272 can be pressed to trigger the alarm signal. At this time, the toilet indicator lamp 240 is in a flashing state to indicate that there is a dangerous situation in the toilet area structural body 210 and needs to be rescued in time. Moreover, the environmental sensor 273 provided on the inner wall of the lavatory area structure 210 is used to detect environmental parameters (such as temperature, humidity, ammonia content, PM2.5, hydrogen sulfide content, etc.) in the lavatory area structure 210, and whether there is a fire or other dangerous situation in the lavatory area structure 210 can be further confirmed based on the environmental sensor 273; the smoke sensor 274 arranged on the inner wall of the toilet space area structural body 210 is used for detecting the smoke concentration in the toilet space area structural body 210, and whether a user absorbs smoke in the toilet space area structural body 210 or whether a fire disaster or other dangerous situations exist can be detected based on the smoke sensor 274.

In order to achieve the functions of collecting excrement and preparing liquid fertilizer in the console area structure 300, in an embodiment, as shown in fig. 2, 4, 6a and 6b, the console area structure 300 includes: a liquid fertilizer treatment system 301 for collecting excrement and preparing liquid fertilizer; the liquid fertilizer treatment system 301 comprises a treatment tank 310 and a finished product tank 320 connected with the treatment tank 310 through at least one connecting pipeline;

an inlet pipeline 311 is arranged on one side of the top end of the treatment tank 310, and a first liquid level switch 312 is arranged on the inlet pipeline 311; a plurality of sensors and at least one first submersible pump 313 are also arranged in the treatment tank 310;

an outlet pipeline 321 is arranged on one side of the top end of the finished product pool 320, and a second liquid level switch 322 is arranged on the outlet pipeline 321; at least one sensor and at least one second submersible pump 323 are also provided in the product tank 320.

In the present embodiment, the inlet pipe 311 is connected to both toilet structures 211 in the toilet area structure 200, and when there is a toilet structure 211 after the user finishes automatic flushing, the excrement flows into the inlet pipe 311 first and then flows into the treatment tank 310. When the excrement is treated in the treatment tank 310, the excrement mixed treatment process disclosed in the patent with the application number of CN201910534307.2 can be referred. For example, the mixed treatment process of the excrement and the urine comprises the following steps: a1) introducing the excrement and urine into a biochemical treatment tank of a treatment tank 310 for aerobic biological treatment, periodically adding microbial liquid into the biochemical treatment tank, and simultaneously performing micro-nano aeration treatment; a2) introducing the water body treated in the step a1) into a sedimentation tank of a treatment tank 310 for solid-liquid separation; a3) guiding the supernatant treated in the step a2) into an advanced treatment tank of the treatment tank 310, and performing secondary micro-nano aeration in the advanced treatment tank to obtain a liquid fertilizer; a4) the liquid fertilizer is directed to a finished product tank 320. Wherein, the aeration mode of micro-nano aeration treatment as aerobic biochemical treatment is utilized in the application. The microbial liquid added in the step a1) contains lactobacillus QV1, and the lactobacillus QV1 is preserved in the China general microbiological culture Collection center of China Committee for culture Collection of microorganisms with the preservation number as follows: CGMCC No. 16350.

Because carry out liquid manure collection and preparation to the excrement in central console regional structure 300, finally obtain the liquid manure that can recycle, and need not to clear up the excrement that collects regularly with current public latrine, realized changing the excrement into the liquid fertilizer that is of value to soil, reach the purpose of carbon fixation, nitrogen fixation, phosphorus dissolving, potassium dissolving, realized the emission of 10 low carbons even zero carbons of wisdom lavatory.

In an embodiment, the plurality of sensors disposed in the treatment tank 310 include an ammonia nitrogen sensor 314 for detecting ammonia nitrogen content and oxidation-reduction potential in the treatment tank 310, a gas sensor 315 for detecting carbon dioxide content, methane content, and nitrogen dioxide content in the treatment tank 310, an ultrasonic level meter 316 for detecting liquid fertilizer level in the treatment tank 310, and a water quality sensor 317 for detecting chemical oxygen demand and total organic carbon content in the treatment tank 310, wherein the ultrasonic level meter 316 is connected to the first liquid level switch 312; the at least one sensor disposed in the finished product tank 320 includes a first drop-in level gauge 324 for detecting a liquid level in the finished product tank 320, and the first drop-in level gauge 324 is connected to the second liquid level switch 322.

In this embodiment, the ammonia nitrogen sensor 314 disposed in the treatment tank 310 can accurately detect the ammonia nitrogen content and the Oxidation-Reduction Potential (i.e., ORP) in the treatment tank. The gas sensor 315 disposed in the processing tank 310 can accurately detect the carbon dioxide content, the methane content, and the nitrogen dioxide content in the processing tank 310. The ultrasonic liquid level instrument 316 arranged in the treatment pool 310 can accurately detect the liquid level of the liquid fertilizer in the treatment pool 310 and can control the opening and closing of the first liquid level switch 312 based on the liquid level of the liquid fertilizer in the treatment pool 310. For example, when the ultrasonic level meter 316 detects that the current liquid level in the treatment tank 310 is lower than a preset first liquid level height threshold (for example, set to 10cm), the master control box sends an opening signal to the first liquid level switch 312, and at this time, the excrement in the inlet pipe 311 flows into the treatment tank 310; when the current liquid level in the treatment tank 310 is equal to the preset second liquid level height threshold (for example, set to 100cm), the main control box sends a closing signal to the first liquid level switch 312, and the excrement in the inlet pipeline 311 stops flowing into the treatment tank 310. The water quality sensor 317 provided in the treatment tank 310 can accurately detect the Chemical Oxygen Demand (i.e., COD, which is called Chemical Oxygen Demand in ppm or mg/L, and the smaller the value, the lighter the water pollution level) and the Total Organic Carbon (i.e., TOC, which is called Total Organic Carbon, and the higher the TOC content, which is called Total Organic Carbon concentration "mg/L", the higher the Carbon content, the higher the Organic pollutant content).

In order to realize the water recycling and the electric control of the entire intelligent lavatory 10 in the inter-equipment area structure 400, in one embodiment, as shown in fig. 2, 3, 7a and 7b, the inter-equipment area structure 400 includes: a water circulation system 401 and a master control box 402 for recycling water and flushing the toilet in the toilet area structure 200; the water circulation system 401 comprises a toilet flushing tank 410, a hand washing water recycling tank 420, a bacteria liquid tank 430 and a disinfectant liquid tank 440; the hand washing water recycling tank 420 is connected with the toilet flushing tank 410 through a first pipeline 421, and a self-sucking pump 422 is arranged on the first pipeline 421; the bacteria liquid tank 430 is connected with the toilet flushing tank 410 through a second pipeline 431, a first diaphragm pump 432 and a three-way electromagnetic valve 433 are sequentially arranged on the second pipeline 431, the inlet end of the three-way electromagnetic valve 433 is connected with the outlet end of the first diaphragm pump 432, the first outlet end of the three-way electromagnetic valve 433 is connected with the toilet flushing tank 410, and the second outlet end of the three-way electromagnetic valve 433 is connected with the hand washing water reuse tank 420; the water inlet of the toilet flushing box 410 is also connected with a water inlet pipe 411, the water outlet of the toilet flushing box 410 is also connected with one end of a water outlet pipeline 412, and the other end of the water outlet pipeline 412 is connected with the toilet space structure 211 in the toilet space area structure 200; the disinfectant tank 440 is connected with the toilet structure 211 in the toilet area structure 200 through a third pipeline 441, and a second diaphragm pump 442 is further disposed on the third pipeline 441.

In this embodiment, a toilet flush tank 410 is provided in the water circulation system 401 to collect hand wash water from a sink in the lavatory monument 100. And the water inlet pipe 411 can be connected with a tap water pipe network, so that the water in the toilet flushing box 410 is sourced from both the tap water pipe network and the hand washing basin recycled water, the recycled water is fully utilized, and the effect of saving water is realized.

In order to accelerate the aerobic decomposition speed of excrement in the treatment tank 310 and control the quantity and variety of beneficial bacteria, the first diaphragm pump 432 extracts the microbial liquid in the microbial liquid tank 430, and then the microbial liquid flows to the toilet flushing tank 410 and the hand washing water recycling tank 420 through the three-way solenoid valve 433. The microbial liquid is mixed with the hand washing pool recycled water in the hand washing water recycling tank 420, then the mixture is pumped by the self-sucking pump 422 to flow to the toilet flushing tank 410, and the microbial liquid is mixed with the toilet flushing water in the toilet flushing tank 410, so that the toilet flushing water with various mixed sources and mixed beneficial bacteria is obtained.

In order to make the flushing water in the flushing tank 410 available for flushing, the outlet of the flushing tank 410 needs to be connected with one end of the outlet pipe 412, and the other end of the outlet pipe 412 is connected with the toilet structure 211 (such as a toilet or a squatting pan) in the toilet area structure 200. When the toilet structure 211 in the toilet space area structure 200 is flushed, water is supplied by the toilet flushing tank 410.

In addition, in order to avoid the way of cross infection of toilet use, after each toilet user finishes toilet use, the toilet indicator 240 is green after the user leaves the toilet area structure 210. The toilet structure 211 in the toilet area structural body 210 is in an unmanned state, and the second diaphragm pump 442 extracts disinfectant in the disinfectant tank 440 to kill the toilet space.

In one embodiment, as shown in fig. 7b and 7d, a water meter 413 and a water inlet solenoid valve 414 are further sequentially disposed on the water inlet pipe 411; a second throw-in type liquid level meter 415 is arranged in the toilet flushing tank 410, a third throw-in type liquid level meter 423 is arranged in the hand washing water recycling tank 420, a fourth throw-in type liquid level meter 434 is arranged in the bacteria liquid tank 430, and a fifth throw-in type liquid level meter 443 is arranged in the disinfectant liquid tank 440; the water meter 413, the water inlet pipe electromagnetic valve 414, the second drop-in level meter 415, the third drop-in level meter 423, the fourth drop-in level meter 434, and the fifth drop-in level meter 443 are all connected to the main control box 402.

In this embodiment, the water meter 413 can be regarded as a flow meter for counting the total water amount flowing into the toilet flushing tank 410 through the tap water pipe network; the opening and closing of the water inlet pipe electromagnetic valve 414 is controlled by the main control box 402, and specifically, when the second input type liquid level meter 415 arranged in the toilet flushing box 410 detects that the current liquid level in the toilet flushing box 410 is lower than a preset third liquid level height threshold (for example, set to 10cm), the main control box 402 sends an opening signal to the water inlet pipe electromagnetic valve 414. When the toilet flushing tank 410 is continuously adding water until the second drop-in level gauge 415 detects that the current liquid level in the toilet flushing tank 410 is equal to a preset fourth liquid level height threshold (set to 10cm, for example), the master control tank 402 sends a closing signal to the water inlet pipe electromagnetic valve 414. Similarly, the liquid level in the hand washing water recycling tank 420 is obtained by the third drop-in level meter 423, the liquid level in the bacteria liquid tank 430 is obtained by the fourth drop-in level meter 434, and the liquid level in the disinfectant liquid tank 440 is obtained by the fifth drop-in level meter 443. When the main control box 402 obtains the respective liquid level heights of the hand washing water recycling box 420, the bacteria liquid box 430 and the disinfectant liquid box 440, the liquid level monitoring can be effectively performed.

The main control box 402 disposed in the inter-equipment area structure 400 is used as a core electric control device of the entire intelligent toilet 10, and all the sensors, detectors, level gauges, inductive locks, door closers, and other functional components in the intelligent toilet 10 are connected to the main control box 402 (or the sub-control box).

Specifically, the smart soap dispenser 120, the smart paper wiper 130, the passenger flow meter 140, the display 150, and the smart air conditioner 160 in the lavatory public area structure 100 are all connected to the main control box 402. The infrared sensor 230, the toilet indicator light 240, the induction door lock 250, the inside door opening inductor 261, the outside door opening inductor 262, the laser sensor 271, the alarm button 272, the environment sensor 273, the smoke inductor 274, the intelligent paper winder 280 and the electric door closer 290 in the toilet area structure 200 are all connected with the main control box 402, and the lamp tube and the exhaust fan in the toilet area structure 200 are all connected with the main control box 402. The first liquid level switch 312, the first submersible pump 313, the ammonia nitrogen sensor 314, the gas sensor 315, the ultrasonic level meter 316, the water quality sensor 317, the second liquid level switch 322, the second submersible pump 323 and the first throw-in level meter 324 in the center console area structure 300 are all connected with the main control box 402. The self-priming pump 422, the first diaphragm pump 432, the three-way solenoid valve 433 and the second diaphragm pump 442 in the inter-equipment regional structure 400 are all connected with the main control box 402. That is, the main control box 402 is a core power supply and control part of the entire intelligent lavatory 10 to supply power to the individual function modules or to send out control signals.

And the data received by the master control box 402 from any of the above sensors and sensors can be sent to the display screen 150 in the public lavatory area structure 100 for real-time data display, for example, parameters such as temperature, humidity, ammonia gas content, PM2.5, hydrogen sulfide content and the like detected by the environmental sensor 273 can be displayed on the display screen 150 for the user to visually check.

In order to ensure the wireless communication functions of the intelligent toilet 10, such as 4G/5G/6G, in one embodiment, as shown in fig. 7c, a main control board 402a, a power module 402b and a communication module 402c are disposed in the main control box 402; the power module 402b and the communication module 402c are both connected to the main control board 402 a.

In this embodiment, the communication module 402c may be implemented by a 4G, 5G, or 6G communication module, so that all the parameters collected by various sensors, detectors, and other devices installed in the intelligent toilet 10 can be transmitted from the main control board 402a to the cloud server 20 through the communication module 402 c. After receiving the parameters, the cloud server 20 may perform processing based on a data processing policy pre-stored in the cloud server 20 to obtain a processing result. For example, one of the data processing strategies of the cloud server 20 is to convert data of whether a person uses the toilet structure 211 based on each laser sensor 271 in the toilet space area structure 200, so that statistical data of current toilet space usage can be obtained.

In order to ensure the energy saving and power saving and green environmental protection functions of the smart toilet 10, in one embodiment, as shown in fig. 3 and 7c, a photovoltaic cell panel 500 is further disposed on the top end of the smart toilet 10, and the photovoltaic cell panel 500 is used for converting solar energy into electric energy for the smart toilet 10 to use.

In this embodiment, a plurality of photovoltaic panels 500 are laid on the top end (which may be understood as a roof) of the intelligent toilet 10, so that solar energy can be converted into electric energy through the photovoltaic panels 500 for the intelligent toilet 10 to use. Specifically, the electric energy generated by the photovoltaic cell panel 500 is stored in the power module 402b, and the electric energy generated by the solar power generation is stored in the power module 402b and then can be provided to all the electric parts in the intelligent toilet 10 for use, so that the intelligent toilet 10 does not need to be additionally supplied with electric power by external commercial power.

To ensure that the smart toilet 10 also has the smart retail and shared charging functions, in one embodiment, the smart toilet 10 further includes a smart vending machine structure and/or a shared charger rental structure (the smart vending machine structure and the shared charger rental structure are not shown), which are connected to the toilet public area structure 100.

In this embodiment, the configured structure of the smart vending machine may refer to an existing smart vending machine, and the user may automatically output the selected item to the user after the item is selected and the payment is scanned or the currency payment is successful. The shared charger baby leasing structure can refer to the existing shared charger baby equipment, and when a user needs to lease the charger baby, the leased shared charger baby can be taken away after scanning and verification are successful.

In specific implementation, one or more of an LED display screen, an LED light box, or a display board may be further disposed on any side wall of the outer wall of the intelligent toilet 10, and the contents such as pictures to be displayed are displayed through the LED display screen, the LED light box, or the display board disposed on the side wall.

The intelligent cloud toilet provided by the embodiment of the application comprises the intelligent toilet and a cloud server in communication connection with the intelligent toilet; the intelligent toilet comprises a toilet public area structure, a plurality of toilet seat area structures, a center console area structure and a plurality of equipment room area structures; the intelligent toilet is used for collecting excrement, recycling water and preparing liquid fertilizer, and is also used for acquiring working parameters and sending the working parameters to the cloud server; the cloud server is used for receiving the working parameters sent by the intelligent toilet and processing the working parameters according to a preset data processing strategy to obtain a processing result. The working parameter of uploading wisdom lavatory to cloud ware has been realized fast, has improved the service parameter of public latrine and has acquireed efficiency, still carries out liquid fertilizer preparation with the effective recycle of excrement to the excrement that collects.

While the invention has been described with reference to specific embodiments, the scope of the invention is not limited thereto, and those skilled in the art can easily conceive various equivalent modifications or substitutions within the technical scope of the invention. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims

1. A smart cloud toilet is characterized by comprising a smart toilet and a cloud server in communication connection with the smart toilet; the intelligent toilet comprises a toilet public area structure, a plurality of toilet seat area structures, a center console area structure and a plurality of equipment room area structures;

2. The smart cloud toilet of claim 1, wherein the toilet public area structure comprises: the intelligent soap dispenser comprises a public area structure body, and an intelligent soap dispenser, an intelligent paper wiping machine, a passenger flow meter, a display screen and an intelligent air conditioner which are arranged in the public area structure body.

3. The smart cloud toilet of claim 1, wherein the lavatory area structure comprises: the toilet room area structure body and a toilet room door body which is matched with the toilet room area structure body and can rotate around a door shaft on the toilet room area structure body; the intelligent toilet seat comprises a toilet seat area structure body, and is characterized by also comprising an infrared sensor, a toilet seat indicator lamp, an induction door lock, an inside door opening inductor, an outside door opening inductor, a laser sensor, an alarm button, an environment sensor, a smoke inductor and an intelligent paper winder which are arranged on the toilet seat area structure body; the electric door closer is arranged at the top end of the toilet area structure body and is connected with the top end of the toilet door body; wherein, be provided with the lavatory position structure in the regional structure of lavatory position.

4. The smart cloud toilet of claim 1, wherein the center console area structure comprises a liquid fertilizer treatment system for collecting excrement and preparing liquid fertilizer; the liquid fertilizer treatment system comprises a treatment tank and a finished product tank connected with the treatment tank through at least one connecting pipeline;

5. The smart cloud toilet according to claim 4, wherein the plurality of sensors disposed in the treatment tank comprise an ammonia nitrogen sensor for detecting ammonia nitrogen content and oxidation-reduction potential in the treatment tank, a gas sensor for detecting carbon dioxide content, methane content and nitrogen dioxide content in the treatment tank, an ultrasonic level meter for detecting liquid fertilizer liquid level in the treatment tank, and a water quality sensor for detecting chemical oxygen demand and total organic carbon content in the treatment tank, wherein the ultrasonic level meter is connected to the first liquid level switch; the finished product pool is provided with at least one sensor, the at least one sensor comprises a first throw-in type liquid level instrument used for detecting the liquid level in the finished product pool, and the first throw-in type liquid level instrument is connected with the second liquid level switch.

6. The smart cloud toilet of claim 1, wherein the inter-equipment area structure comprises a water circulation system and a master box for recycling water and flushing toilet bowls within the toilet bowl area structure; the water circulation system comprises a toilet flushing box, a hand washing water recycling box, a bacteria liquid box and a disinfectant liquid box; the toilet flushing device comprises a toilet flushing box, a hand washing water recycling box, a first pipeline and a second pipeline, wherein the hand washing water recycling box is connected with the toilet flushing box through the first pipeline, and a self-sucking pump is arranged on the first pipeline; the bacteria liquid box is connected with the toilet flushing box through a second pipeline, a first diaphragm pump and a three-way electromagnetic valve are sequentially arranged on the second pipeline, the inlet end of the three-way electromagnetic valve is connected with the outlet end of the first diaphragm pump, the first outlet end of the three-way electromagnetic valve is connected with the toilet flushing box, and the second outlet end of the three-way electromagnetic valve is connected with the hand washing water recycling box; the water inlet of the toilet flushing box is also connected with a water inlet pipe, the water outlet of the toilet flushing box is also connected with one end of a water outlet pipeline, and the other end of the water outlet pipeline is connected with a toilet structure in the toilet space area structure; the disinfectant tank is connected with a toilet structure in the toilet area structure through a third pipeline, and a second diaphragm pump is further arranged on the third pipeline.

7. The smart cloud toilet according to claim 6, wherein a water meter and a water inlet pipe electromagnetic valve are sequentially arranged on the water inlet pipe; a second throw-in type liquid level instrument is arranged in the toilet flushing box, a third throw-in type liquid level instrument is arranged in the hand washing water recycling box, a fourth throw-in type liquid level instrument is arranged in the liquid bacterium box, and a fifth throw-in type liquid level instrument is arranged in the disinfectant box; the water meter, the water inlet pipe electromagnetic valve, the second throw-in type liquid level instrument, the third throw-in type liquid level instrument, the fourth throw-in type liquid level instrument and the fifth throw-in type liquid level instrument are all connected with the main control box.

8. The smart cloud toilet according to claim 6, wherein a main control board, a power supply module and a communication module are arranged in the main control box; the power module and the communication module are connected with the main control board.

9. The smart cloud toilet according to claim 1, wherein a photovoltaic panel is further provided on the top end of the smart toilet for converting solar energy into electric energy for use in the smart toilet.

10. The smart cloud toilet of claim 1, further comprising a smart vending machine structure and/or a shared charger bank rental structure, the smart vending machine structure and/or the shared charger bank rental structure being connected to the toilet public area structure.