CN116485498A - Operation method of unmanned toilet - Google Patents

Abstract

The invention relates to an operation method of an unmanned toilet, which comprises the following steps: the scheduling platform receives a first toilet order sent by the mobile terminal, generates first scheduling information based on a toilet type identifier and specified driving path information, and the first scheduling information is used for enabling an unmanned toilet matched with the toilet type identifier to drive to a first stop point in the first toilet order; and sending the first scheduling information to the mobile terminal, wherein the mobile terminal performs verification interaction with the unmanned toilet which runs to a first stop point, after the verification is passed, the door of the unmanned toilet is in an unlocking state, and after the unmanned toilet monitors that the user of the mobile terminal enters the unmanned toilet, the unmanned toilet is adjusted based on the personal information of the user so as to adapt to the user requirement. The method solves the problems that the users find the toilet nearby difficultly and the queuing time of the toilet in the area with large flow of people is long.

Description

Operation method of unmanned toilet

Technical Field

The invention relates to the technical field of public facilities, in particular to an operation method of an unmanned toilet.

Background

Now, in China, the sharing economy is more and more extensive, such as sharing bicycles, sharing charging treasures, sharing umbrellas and the like, and is closely related to the life of people. The public toilet is mainly fixedly built in areas with large traffic, such as scenic spots, markets and the like. The existing number of toilets can not meet the use requirements of people, the defect that people with requirements can not find the toilets nearby often occurs, and meanwhile, the problem that the toilet in the garden can not be solved when the toilet is queued for a long time is solved, so the inventor thinks of continuing a technical scheme for setting the public toilets to be shared mobile toilets, and realizing convenience and meeting the requirements of users.

Disclosure of Invention

First, the technical problem to be solved

Aiming at the defects and shortcomings of the prior art, the embodiment of the invention provides a running method of an unmanned toilet.

(II) technical scheme

In a first aspect, an embodiment of the present invention provides a method for operating an unmanned lavatory, including:

s10, a dispatching platform receives a first toilet order sent by a mobile terminal, wherein the first toilet order is an order generated by the mobile terminal based on user trigger, and the order comprises the following steps: toilet type identification, specified travel path information; the specified travel path information includes: the idle state unmanned lavatory is matched with the lavatory type identification, and the unmanned lavatory is partially or completely driven by the path information and at least one stop point;

s20, the dispatching platform generates first dispatching information based on the toilet type identifier and the specified running path information and sends the unmanned toilet and first display information, wherein the first dispatching information is used for enabling the unmanned toilet matched with the toilet type identifier to run to a first stop point in a first toilet order; transmitting first display information to the mobile terminal, wherein the first display information comprises: the real-time position of the unmanned lavatory driving to the first dock and the remaining time to the first dock;

s30, the mobile terminal performs verification interaction with the unmanned lavatory which runs to the first stop point, after verification is passed, the door of the unmanned lavatory is in an unlocking state, and after the unmanned lavatory monitors that a user of the mobile terminal enters the unmanned lavatory, the unmanned lavatory is adjusted based on personal information of the user so as to adapt to the user requirements.

Optionally, the method further comprises:

s40, after a user enters the unmanned lavatory, the dispatching platform checks whether a second stop point exists in the first lavatory order, and if the second stop point exists, and determines that the first stop point to the second stop point are in a running mode of the unmanned lavatory in a using state, second dispatching information is generated;

and the dispatching platform sends the second dispatching information to the unmanned toilet so that the unmanned toilet can be used for carrying a user to travel from a first stop point to a second stop point.

Optionally, the method further comprises:

s50, the dispatching platform acquires health state information reported by each unmanned toilet in a specified range, and takes the unmanned toilet as a toilet to be maintained and generates maintenance information when judging that at least one item of the health state information is unhealthy;

aiming at each unmanned lavatory needing to be maintained, the dispatching platform acquires a base station with processing capacity in the area where the unmanned lavatory is located according to maintenance information, selects a base station by adopting a shortest distance matching strategy, generates third dispatching information based on the position information of the selected base station, and sends the third dispatching information to the unmanned lavatory so that the unmanned lavatory can travel to the selected base station to realize maintenance;

the health status information includes one or more of the following: electric quantity, air quality, water quantity, water saving quantity, excrement quantity, cleanliness, consumable residual quantity and maintenance period.

Optionally, the unmanned lavatory in S30 is adjusted based on the personality information to which the user belongs, including:

the unmanned toilet establishes short-distance wireless connection with the mobile terminal, receives the personal information collected and sent by the mobile terminal in a preset time period, and adjusts based on the personal information;

the personality information includes one or more of the following:

temperature information, humidity information, music information, film and television information, advertisement information and duration payment information;

when the unmanned toilet monitors that the current use time exceeds the maximum payment time, first early warning information is sent to the mobile terminal, and the first early warning information comprises: after the predicted duration, automatically unlocking the information of the locking state of the unmanned lavatory door and the information of the prolonged use duration;

the unmanned lavatory does not receive response information of the mobile terminal based on the first early warning information in a specified time period, and sends alarm information to a dispatching platform, wherein the alarm information comprises: the identification, real-time position, state and alarm reasons of the current unmanned toilet;

and the dispatching platform generates fourth dispatching information based on the alarm information, and sends the fourth dispatching information to the unmanned lavatory so that the unmanned lavatory can travel to a base station of the fourth dispatching information for processing based on the fourth dispatching information.

Optionally, the lavatory type identifier comprises: a water-free microbial toilet type identifier, a water-flushing toilet type identifier, a micro-water-flushing foam toilet type identifier, a vacuum negative pressure toilet type identifier and a packaging type toilet type identifier;

and/or the number of the groups of groups,

the first toilet order is an order generated by the mobile terminal based on user triggering, and comprises the following steps:

the mobile terminal receives a starting request triggered by a user, displays a first interface for selecting toilet type identification and stop point information, and responds to generation of a user selection instruction, wherein the generation of the user selection instruction comprises the selected toilet type identification and at least one stop point to-be-matched instruction sending scheduling platform;

the mobile terminal receives the travel path information of each unmanned toilet reaching the nearest stop point in the designated range sent by the dispatching platform; the unmanned toilet is a toilet matched with the selected toilet type identifier;

and the mobile terminal receives the specified driving path and stop point information triggered by the user and generates a first toilet order based on the selected toilet type identifier.

Optionally, the method further comprises:

and the dispatching platform sends personalized advertisement information to each unmanned lavatory based on the position of each unmanned lavatory in a designated range, so that the unmanned lavatory receives the personalized advertisement information and is dynamically displayed outside the unmanned lavatory.

Optionally, the method further comprises:

when the scheduling platform monitors that a newly added mobile terminal exists in a set area, sending sharing prompt information for sharing the unmanned toilet to the mobile terminal;

and/or when the unmanned toilet is in a use state, the prompting lamp outside the unmanned toilet is turned on.

In a second aspect, an embodiment of the present invention further provides an operation scheduling system for an unmanned lavatory, including:

the system comprises a dispatching platform, a plurality of unmanned toilets and a plurality of base stations;

each unmanned toilet is communicated with the dispatching platform, and each base station is communicated with the dispatching platform; when the unmanned toilet and a base station at the position are in a preset range, the unmanned toilet is communicated with the base station in the preset range;

and the dispatching platform receives the first toilet order sent by any mobile terminal, and executes the steps of the operation method of the unmanned toilet in any one of the first aspects.

Optionally, the unmanned lavatory includes:

the first communication module is used for communicating with the scheduling platform, interacting with the scheduling platform and receiving scheduling information or personalized advertisement information of the scheduling platform;

the second communication module is used for establishing close-range wireless communication with the mobile terminal when the unmanned toilet is in a use state;

the monitoring module is used for periodically monitoring whether a living body exists in the current unmanned toilet;

the control module is used for adjusting all parameters or meters of the unmanned driving toilet based on the scheduling information or the information of the mobile terminal;

the information display module is used for dynamically displaying the advertising information on the periphery of the unmanned lavatory or dynamically displaying at least one advertising information in the unmanned lavatory when the monitoring module monitors that the living body exists in the unmanned lavatory.

Optionally, the unmanned lavatory is a portable rechargeable mobile lavatory.

(III) beneficial effects

According to the method provided by the embodiment of the invention, the dispatching platform dispatches the unmanned toilet to the first stop point based on the toilet type identifier and the appointed driving path in the first toilet order, so that the problem that the current user cannot find the toilet is effectively solved, the mobile terminal can be verified in the process of using the unmanned toilet, the problem of the user is effectively solved due to the fact that the current user who sends the first toilet order is in use, and meanwhile, the unmanned toilet can be adjusted based on the personal information of the current user in the process of using the unmanned toilet, and the personalized requirements of the user are met.

Drawings

FIG. 1 is a schematic flow chart of a method of operating an unmanned lavatory according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart of a method of operating an unmanned lavatory according to another embodiment of the present invention;

FIG. 3 is a schematic diagram showing the functions of the physical structures of the system in which the unmanned lavatory is located according to another embodiment of the present invention;

fig. 4 is a functional structural schematic diagram of an unmanned lavatory according to an embodiment of the present invention.

Detailed Description

The invention will be better explained by the following detailed description of the embodiments with reference to the drawings.

The base station in the embodiment of the invention can be understood as a warehouse site of the unmanned toilet, which comprises the modes of charging, cleaning, maintaining and supplementing materials, emergency management and the like.

As shown in fig. 1, the present embodiment provides a method for operating an unmanned lavatory, which may include the steps of:

s10, a dispatching platform receives a first toilet order sent by a mobile terminal, wherein the first toilet order is an order generated by the mobile terminal based on user trigger, and the order comprises the following steps: toilet type identification, specified travel path information; the specified travel path information includes: and the idle state unmanned toilet is matched with the toilet type identification, and the unmanned toilet is partially or completely driven by the idle state unmanned toilet is matched with the idle state unmanned toilet.

For example, the toilet type identification may include: a waterless microorganism toilet type identifier, a water flushing toilet type identifier, a micro water flushing foam toilet type identifier, a vacuum negative pressure toilet type identifier, a packaging type toilet type identifier and the like.

The first toilet order in this step is an order generated by the mobile terminal based on user trigger, and may specifically include:

the mobile terminal receives a starting request triggered by a user, displays a first interface for selecting toilet type identification and stop point information, and responds to generation of a user selection instruction, wherein the generation of the user selection instruction comprises the selected toilet type identification and at least one stop point to-be-matched instruction sending scheduling platform;

the mobile terminal receives the travel path information of each unmanned toilet reaching the nearest stop point in the designated range sent by the dispatching platform; the unmanned toilet is a toilet matched with the selected toilet type identifier;

and the mobile terminal receives the specified driving path and stop point information triggered by the user and generates a first toilet order based on the selected toilet type identifier.

And S20, the dispatching platform generates first dispatching information based on the toilet type identifier and the specified driving path information, sends the unmanned toilet and the first display information, and sends the first display information to the mobile terminal.

The first scheduling information is used for enabling the unmanned lavatory matched with the lavatory type identifier to travel to a first stop point in a first lavatory order; the first display information includes: the real-time location of the unmanned lavatory traveling to the first dock and the remaining time to reach the first dock.

S30, the mobile terminal performs verification interaction with the unmanned lavatory which runs to the first stop point, after verification is passed, the door of the unmanned lavatory is in an unlocking state, and after the unmanned lavatory monitors that a user of the mobile terminal enters the unmanned lavatory, the unmanned lavatory is adjusted based on personal information of the user so as to adapt to the user requirements.

Specifically, when the unmanned toilet is in a use state, a prompting lamp outside the unmanned toilet is turned on to prompt other users that the unmanned toilet is in the use state currently, and the unmanned toilet reports the changed state to the dispatching platform when the state is changed.

The method of the embodiment effectively solves the problems that the users find the toilet nearby difficultly and the queuing time of the toilet in the area with large traffic is long, can effectively meet the personalized requirements of the users, and improves the use experience of the users.

For example, after the verification is passed in the step S30, the unmanned toilet establishes a short-distance wireless connection with the mobile terminal, receives the personality information collected and sent by the mobile terminal in a preset time period, and adjusts based on the personality information;

the personality information includes one or more of the following: temperature information, humidity information, music information, film and television information, advertisement information, duration payment information and the like;

in addition, if the unmanned toilet monitors that the current use time exceeds the maximum payment time, first early warning information is sent to the mobile terminal, and the first early warning information comprises: after the predicted duration, automatically unlocking the information of the locking state of the unmanned lavatory door and the information of the prolonged use duration;

the unmanned lavatory does not receive response information of the mobile terminal based on the first early warning information in a specified time period, and sends alarm information to a dispatching platform, wherein the alarm information comprises: the identification, real-time position, state and alarm reasons of the current unmanned toilet;

and the dispatching platform generates fourth dispatching information based on the alarm information, and sends the fourth dispatching information to the unmanned lavatory so that the unmanned lavatory can travel to a base station of the fourth dispatching information for processing based on the fourth dispatching information.

The scheme ensures reasonable use of the unmanned toilet by the user, ensures use safety of the user, and simultaneously avoids unreasonable requirement that the unmanned toilet is occupied by the user for a long time.

In practical applications, the method further includes the following step S40:

s40, after a user enters the unmanned lavatory, the dispatching platform checks whether a second stop point exists in the first lavatory order, and if the second stop point exists, and determines that the first stop point to the second stop point are in a running mode of the unmanned lavatory in a using state, second dispatching information is generated;

and the dispatching platform sends the second dispatching information to the unmanned toilet so that the unmanned toilet can be used for carrying a user to travel from a first stop point to a second stop point.

The method of the step can solve the problem of difficulty in finding a toilet nearby, can further assist a user in running in effective time, ensures that the user does not fall behind, and ensures timeliness of the user.

In another possible implementation procedure, the method shown in fig. 1 may further include the following step S50:

s50, the dispatching platform acquires health state information reported by each unmanned toilet in a specified range, and takes the unmanned toilet as a toilet to be maintained and generates maintenance information when judging that at least one item of the health state information is unhealthy;

aiming at each unmanned lavatory needing to be maintained, the dispatching platform acquires a base station with processing capacity in the area where the unmanned lavatory is located according to maintenance information, selects a base station by adopting a shortest distance matching strategy, generates third dispatching information based on the position information of the selected base station, and sends the third dispatching information to the unmanned lavatory so that the unmanned lavatory can travel to the selected base station to realize maintenance;

the health status information includes one or more of the following: electric quantity, air quality, water quantity, water saving quantity, excrement quantity, cleanliness, consumable residual quantity and maintenance period.

In a second possible implementation process, the method shown in fig. 1 may further include the following step S60:

and S60, the dispatching platform sends personalized advertisement information to each unmanned lavatory based on the position of each unmanned lavatory in the designated range, so that the unmanned lavatory receives the personalized advertisement information and is dynamically displayed outside the unmanned lavatory.

When the scheduling platform of the embodiment can monitor that a newly added mobile terminal exists in the setting area, the sharing prompt information for sharing the unmanned toilet is sent to the mobile terminal, so that the experience of a user on the setting area is effectively improved, and the problem that the user in the setting area is difficult to find the toilet is solved.

As shown in fig. 2 and 3, the embodiment of the present invention describes in detail the operation method of the unmanned lavatory of the present embodiment from another aspect.

201. The user can select a toilet type identifier, a specific position location and a target position location based on a first interface of a WeChat applet of the mobile terminal, and sends position information and the toilet type identifier to a dispatching platform;

202. the dispatching platform screens unmanned toilets in idle states in the area based on the position information and the toilet type identification, and recommends 1-5 pieces of path information to the mobile terminal.

Here, when no toilet in an idle state matching the toilet type identifier required by the mobile terminal is found in the area, inquiry information for inquiring whether to replace the toilet type identifier is transmitted to the mobile terminal.

203. The mobile terminal responds to the selection of the path information by the user, generates a first toilet order based on the toilet type identifier and the position information (including the current position of the user and the destination position of the unmanned toilet), and sends the first toilet order to the dispatching platform.

For example, where the dispatch platform prefers to include a base station within an area, the dispatch platform prefers to select an idle state unmanned toilet within the base station that meets the toilet type identification.

204. The dispatching platform generates first dispatching information based on the toilet type identifier and the specified driving path information, sends the unmanned toilet and the first display information, and sends the first display information to the mobile terminal.

The first scheduling information of the embodiment is used for enabling the unmanned lavatory matched with the lavatory type identifier to travel to a first stop point in the first lavatory order; namely, after the dispatching platform confirms the unmanned lavatory, the specific position data, the target position data and the driving route corresponding to the first lavatory order are sent/transmitted to the selected unmanned lavatory;

the first display information includes: the real-time location of the unmanned lavatory traveling to the first dock and the remaining time to reach the first dock. I.e. and send the real-time positioning and the estimated time of arrival of the unmanned lavatory to the mobile terminal.

205. After the unmanned lavatory goes to a specific position (corresponding to a first stop point) determined by the mobile terminal, the mobile terminal can verify through a bar code of an external door frame area of the unmanned lavatory or an input verification code;

if the verification is passed, the door of the unmanned toilet is automatically opened, the mobile terminal is automatically connected with partial equipment in the toilet, and parameter adjustment can be performed on the equipment in the unmanned toilet, including but not limited to air conditioning temperature, air volume, music content, broadcast frequency modulation and the like.

Further, after the user enters the unmanned toilet, the unmanned toilet can automatically detect the body temperature of the user, monitor whether to carry inflammable and explosive products and the like.

When a user enters the unmanned toilet, the state of the unmanned toilet is changed into a manned state, namely a use state, and the unmanned toilet is reported to the dispatching platform, so that the dispatching platform updates the state of the unmanned toilet.

206. After a user enters the unmanned lavatory, the dispatching platform checks whether target position data, namely a second stop point, exists in the first lavatory order, and if the second stop point exists, and determines that the first stop point to the second stop point are in a running mode of the unmanned lavatory in a using state, second dispatching information is generated;

and the dispatching platform sends the second dispatching information to the unmanned toilet so that the unmanned toilet can be used for carrying a user to travel from a first stop point to a second stop point.

When the unmanned toilet reaches a destination, namely a second stop point, a user is reminded, after the user goes out of the toilet, the cleaning equipment in the unmanned toilet is controlled to clean the toilet, and the latest state, such as an idle state, of the unmanned toilet is reported to the dispatching platform.

In the embodiment, the unmanned toilet can be used for charging according to the using time length and the route distance of the user, and the charging bill is sent and transmitted to the mobile terminal.

207. The dispatching platform acquires health state information reported by each unmanned toilet in a specified range, judges whether at least one piece of unhealthy information exists in the health state information, and if so, timely maintains the unmanned toilet.

It is understood that the unmanned lavatory detects and monitors the operation state of the internal devices in real time, including but not limited to: whether the operation of the internal equipment is normal, temperature, humidity, power system, electric quantity, air quality, water quantity, water saving quantity, excrement quantity, cleanliness, consumable quantity, whether people exist or not and the like.

After the dispatching platform receives the health state information, when the detection and monitoring data of the unmanned toilet is not in the set range interval, maintenance information can be generated, so that the unmanned toilet can select a base station for maintenance based on the maintenance information. For example, for each unmanned lavatory to be maintained, the dispatch platform obtains the base station with processing capacity in the area where the unmanned lavatory is located according to the maintenance information, selects a base station by adopting the shortest distance matching strategy, generates third dispatch information based on the position information of the selected base station, and sends the third dispatch information to the unmanned lavatory so that the unmanned lavatory can travel to the selected base station to achieve maintenance.

Or when the self-detection or monitoring data of the unmanned toilet is not in the set range interval, a request for maintenance is sent to the dispatching platform, so that the dispatching platform generates third dispatching information for maintenance, and the unmanned toilet runs to the nearest base station based on the third dispatching information to maintain internal equipment, consumables, space and the like.

Generally, the base station is responsible for overhauling, maintaining, repairing, supplementing consumable materials of standby facilities, cleaning, maintaining, discharging excrement and the like, and is provided with wireless charging to charge the unmanned lavatory.

The unmanned lavatory cycle detects and monitors the operational status of internal devices including, but not limited to: excrement amount, electric quantity, water amount, water saving amount and the like.

The base station of the present embodiment may also periodically detect and monitor the operation status of the internal device, including but not limited to: and when the detection and monitoring data are not in the set range interval, sending an early warning prompt to the dispatching platform. And when the base station emergencies, an emergency rescue prompt and the like are sent to the dispatching platform.

208. When the unmanned toilet monitors that the current use time exceeds the maximum payment time, first early warning information is sent to the mobile terminal, and the first early warning information comprises: after the predicted duration, automatically unlocking the information of the locking state of the unmanned lavatory door and the information of the prolonged use duration;

the unmanned lavatory does not receive response information of the mobile terminal based on the first early warning information in a specified time period, and sends alarm information to a dispatching platform, wherein the alarm information comprises: the identification, real-time position, state and alarm reasons of the current unmanned toilet;

and the dispatching platform generates fourth dispatching information based on the alarm information, and sends the fourth dispatching information to the unmanned lavatory so that the unmanned lavatory can travel to a base station of the fourth dispatching information for processing based on the fourth dispatching information.

For example, a user uses the toilet for a long time, a reminder is given in the toilet, and when the user does not respond, or when the user uses the emergency mode of the unmanned toilet, the unmanned toilet sends an emergency rescue prompt to the dispatch platform.

Each unmanned toilet is communicated with the dispatching platform, and each base station is communicated with the dispatching platform; when the unmanned toilet and the base station at the position are in a preset range, the unmanned toilet communicates with the base station in the preset range.

The dispatch platform of the embodiment receives data information sent by the mobile terminal, the unmanned toilet and the base station, and sends and transmits related data information and/or dispatch instructions matched with the data information. The dispatching platform can also be connected with a government big data terminal to display water saving amount, excrement amount, electric quantity, people flow and the like.

209. The dispatching platform sends personalized advertisement information to each unmanned lavatory based on the position of the unmanned lavatory in a designated range, so that the unmanned lavatory receives the personalized advertisement information and is dynamically displayed outside the unmanned lavatory.

It is understood that the mobile terminal, the unmanned toilet and the base station are all provided with advertisement modules, and advertisements can be managed and put through the dispatching platform, so that economic benefits are obtained. The scheduling platform of the embodiment can also realize management data statistics, monitoring data statistics, operation data, advertisement data statistics and the like to realize targeted advertisement delivery.

The embodiment provides an operation scheduling system of an unmanned lavatory, which includes: the system comprises a dispatching platform, a plurality of unmanned toilets and a plurality of base stations;

each unmanned toilet is communicated with the dispatching platform, and each base station is communicated with the dispatching platform; when the unmanned toilet and a base station at the position are in a preset range, the unmanned toilet is communicated with the base station in the preset range;

and the dispatching platform receives the first toilet order sent by any mobile terminal, and executes the steps of the operation method of the unmanned toilet in any one of the figures 1 to 3.

As shown in fig. 4, the unmanned lavatory of the present embodiment may be a portable rechargeable type portable lavatory, and the unmanned lavatory may include:

the first communication module is used for communicating with the scheduling platform, interacting with the scheduling platform and receiving scheduling information or personalized advertisement information of the scheduling platform;

the second communication module is used for establishing close-range wireless communication with the mobile terminal when the unmanned toilet is in a use state;

the monitoring module is used for periodically monitoring whether a living body exists in the current unmanned toilet;

the control module is used for adjusting all parameters or meters of the unmanned driving toilet based on the scheduling information or the information of the mobile terminal;

the information display module is used for dynamically displaying the advertising information on the periphery of the unmanned lavatory or dynamically displaying at least one advertising information in the unmanned lavatory when the monitoring module monitors that the living body exists in the unmanned lavatory.

The unmanned lavatory in this embodiment may be charged by ac or photovoltaic power generation.

In other embodiments, the unmanned lavatory of this embodiment may further comprise: the system comprises a verification module, a detection module, a monitoring module, a cleaning module, an emergency module and an advertisement module;

the advertisement module is used for managing advertisement information in or around the unmanned lavatory and realizing advertisement propaganda by dynamically displaying the advertisement information issued by the dispatching platform.

The first communication module and the second communication module in the unmanned lavatory are used for receiving the position information and the path information sent and transmitted by the dispatching platform or the mobile terminal, the control instruction of the mobile terminal, the dispatching information of the dispatching platform, and sending and transmitting the data information to the dispatching platform or the mobile terminal and the like.

The verification module is used for verifying and confirming the information of the mobile terminal; the verification and confirmation mode is bar code scanning and/or verification code input;

the detection module is used for detecting the running state of each device in the unmanned toilet, including but not limited to whether the running of the device is normal, temperature, humidity, power system and the like, and sending an early warning prompt to the dispatching platform after at least one device fails; the detection module is also used for detecting whether the body temperature of a user carries inflammable and explosive products and the like;

the monitoring module is used for monitoring the running state of equipment in the unmanned toilet, including but not limited to electric quantity, air quality, water quantity, water saving quantity, excrement quantity, cleanliness, consumable quantity, people and the like, and sending an early warning prompt to the dispatching platform when the monitoring data is not in a set range interval;

the cleaning module is used for controlling the cleaning equipment to clean the toilet room after the detection module detects that the toilet needs cleaning and/or detects that a user leaves the toilet after the toilet is finished;

the emergency module is used for emergency of emergency events;

the advertisement module is used for advertising.

The base station in this embodiment may be charged by using an alternating current or photovoltaic power generation mode, and the base station may include: communication module, monitoring module, detection module, module that charges, fortune dimension module, emergent module and advertisement module.

The communication module in the base station is used for receiving the data information sent and transmitted by the dispatching platform or the unmanned toilet and sending and transmitting the data information to the dispatching platform;

the monitoring module in the base station is used for monitoring the running state of equipment in the base station, including but not limited to excrement quantity, electric quantity, water saving quantity and the like, and sending an early warning prompt to the dispatching platform when the monitoring data is not in a set range interval;

the detection module is used for monitoring the running state of the equipment in the base station, and sending an early warning prompt to the dispatching platform after the equipment in the base station fails;

the charging module is used for charging the unmanned lavatory;

the operation and maintenance module is used for overhauling, maintaining, repairing, supplementing consumable materials of standby facilities, cleaning, maintaining, discharging excrement and the like of the unmanned toilet;

the emergency module is used for emergency of emergency events;

the advertisement module is used for advertising.

In an alternative implementation, the scheduling platform of this embodiment includes: a toilet selection module; correspondingly, a toilet selection module in the dispatching platform screens unmanned toilets in an area, specifically, in an area comprising a base station, the unmanned toilets in the base station, which are matched with the toilet type identification required by the mobile terminal, are preferentially selected;

generally, after receiving the toilet type identifier selected by the mobile terminal, the scheduling platform preferentially selects the unmanned toilet within the first preset range around the starting place of the mobile terminal; when the unmanned toilet matched with the toilet type identifier required by the mobile terminal is not found in the first preset range, judging whether the matching unmanned toilet exists in the second preset range, sending the information of the matching unmanned toilet which is not found in the first preset range to the mobile terminal, and inquiring whether to find the related toilet in the second preset range or whether to select to replace the toilet type identifier.

In the embodiment, the scheduling platform schedules the unmanned toilet to the first stop point based on the toilet type identifier and the designated running path in the first toilet order, so that the problem that the current user cannot find the toilet is effectively solved, the mobile terminal can be verified in the process of using the unmanned toilet, the problem of the user is effectively solved when the user currently sending the first toilet order is in use, and meanwhile, the unmanned toilet can be adjusted based on the personal information of the current user in the process of using the unmanned toilet, so that the personalized requirements of the user are met.

It should be noted that in the claims, any reference signs placed between parentheses shall not be construed as limiting the claim. The word "comprising" does not exclude the presence of elements or steps not listed in a claim. The word "a" or "an" preceding an element does not exclude the presence of a plurality of such elements. The invention may be implemented by means of hardware comprising several distinct elements, and by means of a suitably programmed computer. In the claims enumerating several means, several of these means may be embodied by one and the same item of hardware. The use of the terms first, second, third, etc. are for convenience of description only and do not denote any order. These terms may be understood as part of the component name.

Furthermore, it should be noted that in the description of the present specification, the terms "one embodiment," "some embodiments," "example," "specific example," or "some examples," etc., refer to a specific feature, structure, material, or characteristic described in connection with the embodiment or example being included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art upon learning the basic inventive concepts. Therefore, the appended claims should be construed to include preferred embodiments and all such variations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, the present invention should also include such modifications and variations provided that they come within the scope of the following claims and their equivalents.

Claims (10)

1. A method of operating an unmanned lavatory, comprising:

s10, a dispatching platform receives a first toilet order sent by a mobile terminal, wherein the first toilet order is an order generated by the mobile terminal based on user trigger, and the order comprises the following steps: toilet type identification, specified travel path information; the specified travel path information includes: the idle state unmanned lavatory is matched with the lavatory type identification, and the unmanned lavatory is partially or completely driven by the path information and at least one stop point;

s20, the dispatching platform generates first dispatching information based on the toilet type identifier and the specified running path information and sends the unmanned toilet and first display information, wherein the first dispatching information is used for enabling the unmanned toilet matched with the toilet type identifier to run to a first stop point in a first toilet order; transmitting first display information to the mobile terminal, wherein the first display information comprises: the real-time position of the unmanned lavatory driving to the first dock and the remaining time to the first dock;

s30, the mobile terminal performs verification interaction with the unmanned lavatory which runs to the first stop point, after verification is passed, the door of the unmanned lavatory is in an unlocking state, and after the unmanned lavatory monitors that a user of the mobile terminal enters the unmanned lavatory, the unmanned lavatory is adjusted based on personal information of the user so as to adapt to the user requirements.

2. The method of operation of claim 1, further comprising:

s40, after a user enters the unmanned lavatory, the dispatching platform checks whether a second stop point exists in the first lavatory order, and if the second stop point exists, and determines that the first stop point to the second stop point are in a running mode of the unmanned lavatory in a using state, second dispatching information is generated;

and the dispatching platform sends the second dispatching information to the unmanned toilet so that the unmanned toilet can be used for carrying a user to travel from a first stop point to a second stop point.

3. The method of operation of claim 1, further comprising:

s50, the dispatching platform acquires health state information reported by each unmanned toilet in a specified range, and takes the unmanned toilet as a toilet to be maintained and generates maintenance information when judging that at least one item of the health state information is unhealthy;

aiming at each unmanned lavatory needing to be maintained, the dispatching platform acquires a base station with processing capacity in the area where the unmanned lavatory is located according to maintenance information, selects a base station by adopting a shortest distance matching strategy, generates third dispatching information based on the position information of the selected base station, and sends the third dispatching information to the unmanned lavatory so that the unmanned lavatory can travel to the selected base station to realize maintenance;

the health status information includes one or more of the following: electric quantity, air quality, water quantity, water saving quantity, excrement quantity, cleanliness, consumable residual quantity and maintenance period.

4. The operation method according to claim 1, wherein the unmanned lavatory in S30 is adjusted based on the personality information to which the user belongs, comprising:

the unmanned toilet establishes short-distance wireless connection with the mobile terminal, receives the personal information collected and sent by the mobile terminal in a preset time period, and adjusts based on the personal information;

the personality information includes one or more of the following:

temperature information, humidity information, music information, film and television information, advertisement information and duration payment information;

when the unmanned toilet monitors that the current use time exceeds the maximum payment time, first early warning information is sent to the mobile terminal, and the first early warning information comprises: after the predicted duration, automatically unlocking the information of the locking state of the unmanned lavatory door and the information of the prolonged use duration;

the unmanned lavatory does not receive response information of the mobile terminal based on the first early warning information in a specified time period, and sends alarm information to a dispatching platform, wherein the alarm information comprises: the identification, real-time position, state and alarm reasons of the current unmanned toilet;

and the dispatching platform generates fourth dispatching information based on the alarm information, and sends the fourth dispatching information to the unmanned lavatory so that the unmanned lavatory can travel to a base station of the fourth dispatching information for processing based on the fourth dispatching information.

5. The method of operation of claim 1, wherein the toilet type identifier comprises: a water-free microbial toilet type identifier, a water-flushing toilet type identifier, a micro-water-flushing foam toilet type identifier, a vacuum negative pressure toilet type identifier and a packaging type toilet type identifier;

and/or the number of the groups of groups,

the first toilet order is an order generated by the mobile terminal based on user triggering, and comprises the following steps:

the mobile terminal receives a starting request triggered by a user, displays a first interface for selecting toilet type identification and stop point information, and responds to generation of a user selection instruction, wherein the generation of the user selection instruction comprises the selected toilet type identification and at least one stop point to-be-matched instruction sending scheduling platform;

the mobile terminal receives the travel path information of each unmanned toilet reaching the nearest stop point in the designated range sent by the dispatching platform; the unmanned toilet is a toilet matched with the selected toilet type identifier;

and the mobile terminal receives the specified driving path and stop point information triggered by the user and generates a first toilet order based on the selected toilet type identifier.

6. The method of operation of claim 1, further comprising:

and the dispatching platform sends personalized advertisement information to each unmanned lavatory based on the position of each unmanned lavatory in a designated range, so that the unmanned lavatory receives the personalized advertisement information and is dynamically displayed outside the unmanned lavatory.

7. The method of operation of claim 1, further comprising:

when the scheduling platform monitors that a newly added mobile terminal exists in a set area, sending sharing prompt information for sharing the unmanned toilet to the mobile terminal;

and/or when the unmanned toilet is in a use state, the prompting lamp outside the unmanned toilet is turned on.

8. An operation scheduling system of an unmanned lavatory, comprising:

the system comprises a dispatching platform, a plurality of unmanned toilets and a plurality of base stations;

each unmanned toilet is communicated with the dispatching platform, and each base station is communicated with the dispatching platform; when the unmanned toilet and a base station at the position are in a preset range, the unmanned toilet is communicated with the base station in the preset range;

the dispatching platform receives the first toilet order sent by any mobile terminal, and executes the operation method of the unmanned toilet according to any one of the claims 1 to 7.

9. The operation scheduling system of claim 8, wherein the unmanned lavatory comprises:

the first communication module is used for communicating with the scheduling platform, interacting with the scheduling platform and receiving scheduling information or personalized advertisement information of the scheduling platform;

the second communication module is used for establishing close-range wireless communication with the mobile terminal when the unmanned toilet is in a use state;

the monitoring module is used for periodically monitoring whether a living body exists in the current unmanned toilet;

the control module is used for adjusting all parameters or meters of the unmanned driving toilet based on the scheduling information or the information of the mobile terminal;

the information display module is used for dynamically displaying the advertising information on the periphery of the unmanned lavatory or dynamically displaying at least one advertising information in the unmanned lavatory when the monitoring module monitors that the living body exists in the unmanned lavatory.

10. The operational scheduling system of claim 8, wherein said unmanned lavatory is a portable, rechargeable mobile lavatory.